(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]

(76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

能源学人：H+和Zn+共嵌的高能量密度水系锌离子电池体系
 

(75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]

材料牛：一体化柔性锂硫电池
 

(74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

材料牛：用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
 

(73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]

(72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
Joule, 2018,2,1747. [Link]

(71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
 Mechanism. Advanced Functional Materials,2018, 1804975. [Link]

(70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
[Link] 

搜狐：用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
 

(69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO₂ composite films for highly stable aqueous
 Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]

(68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]

(67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 

(66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
 graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]

(65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
 Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]

(64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]

(63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O₂ Batteries. ChemElectroChem, 2018, 5, 1702. [Link]

(62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
 29,571. Invited Review. [Link]

(61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
 Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]

(60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

(59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
 Energy  Chemistry. 2018, 27, 12. Invited Review. [Link]

(58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
 for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]