扫描手机二维码

欢迎您的访问
您是第 位访客

开通时间:..

最后更新时间:..

  • 张宁 ( 特任研究员 )

    的个人主页 http://faculty.ustc.edu.cn/Ning_Zhang/zh_CN/index.htm

  •   特任研究员   博士生导师
研究成果 当前位置: 中文主页 >> 研究成果

截止目前,已发表论文共36篇,授权发明专利2项,其中以第一/通讯作者在 Nature Communications、Journal of the American Chemical Society(2篇)、JACS Au、Energy & Environmental Science、ACS Nano(2篇)等高水平期刊发表论文17篇,总被引超过4100次,4篇论文被选为ESI高被引论文,H因子为20(Google Scholar)。


ResearcherID: J-8879-2015                     ORCID: 0000-0002-0755-1708

Google Scholar: https://scholar.google.com/citations?hl=en&user=c6DPZ4kAAAAJ


Full Publications (* Corresponding author, ‡ Co-first author)

2023

[36] Oxygen reactivity regulation via double-exchange interaction for enhanced water oxidation. Link

N. Zhang, C. Wang, J. Chen, Y. Chai*. EcoMat 2023, 5(2), e12290.

>> Featured in the Special Issue of "PolyU 85th Anniversary Special Issue for EcoMat".

EcoMat-1.jpg

[35] Lattice oxygen activation for enhanced electrochemical oxygen evolution. Link

N. Zhang*, Y. Xiong*. The Journal of Physical Chemistry C 2023, DOI: 10.1021/acs.jpcc.2c08514

JPCC-1.jpg

[34] Plasmonic semiconductors for advanced artificial photosynthesis. Link

N. Zhang*, Y. Xiong*. Advanced Sensor and Energy Materials 2023, DOI: 10.1016/j.asems.2023.100047

ASEM-1.jpg

[33] Boosting electrochemical hydrogen evolution by coupling anodically oxidative dehydrogenation of benzylamine to benzonitrile. Link

K. Chen, W. Zhang*, Y. Bai, W. Gong, N. Zhang*, R. Long*, Y. Xiong*. Chinese Chemical Letters 2023, 34(3), 107319

CCL-2.jpg


2022

[32] Synergizing inter and intraband transitions in defective tungsten oxide for efficient photocatalytic alcohol dehydration to alkene. Link

M. Duan, C. Hu, H. Li, Y. Chen, R. Chen, W. Gong, Z. Lu*, N. Zhang*, R. Long*, L. Song, Y. Xiong*. JACS Au 2022, 2(5), 1160-1168.

JACS Au-1.jpg

[31] Governing interlayer strain in bismuth nanocrystals for efficient ammonia electrosynthesis from nitrate reduction. Link

N. Zhang, J. Shang, X. Deng, L. Cai, R. Long, Y. Xiong, Y. Chai*. ACS Nano 2022, 16(3), 4795-4804.

ACSNano-2.jpg

[30] Phosphate-induced interfacial electronic engineering in VPO4-Ni2P heterostructure for improved electrochemical water oxidation. Link

K. Chen, K. Mao, Y. Bai, D. Duan, S. Chen, C. Wang, N. Zhang*, R. Long*, X. Wu, L. Song, Y. Xiong*. Chinese Chemical Letters 2022, 33(1), 452-456. 

CCL-1.jpg

[29] Topological phase change transistors based on tellurium Weyl semiconductor. Link

J. Chen, T. Zhang, J. Wang, L. Xu, Z. Lin, J. Liu, C. Wang, N. Zhang, S. P. Lau, W. Zhang, M. Chhowalla, Y. Chai*. Science Advances 2022, 8(23), eabn3837. 

[28] Improving C-N-FeOx oxygen evolution electrocatalysts through hydroxyl-modulated local coordination environment. Link

T. Jing, N. Zhang, C. Zhang, S. Mourdikoudis, Z. Sofer*, W. Li, P. Li, T. Li, Y. Zuo*, D. Rao*.ACS Catalysis 2022, 12(12), 7443-7452. 

[27] Alloy-buffer-controlled van der Waals epitaxial growth of aligned tellurene. Link

C. Wang, C. Xu, X. Guo, N. Zhang, J. Yan, J. Chen, W. Yu, J. Qin, Y. Zhu, L.-J. Li, Y. Chai*. Nano Research 2022, 15(6), 5712-5718.

[26] Molecule bridged graphene/Ag for highly conductive ink. Link

W. Li, J. Yan, C. Wang, N. Zhang, T. H. Choy, S. Liu, L. Zhao, X. Tao, Y. Chai*. Science China Materials 2022, 65(10), 2771-2778. 


2021

[25] Lattice oxygen redox chemistry in solid-state electrocatalysts for water oxidation. Link

N. Zhang, Y. Chai*. Energy & Environmental Science 2021, 14(9), 4647-4671. 

>> Featured in the Themed Collection of "SDG12: Sustainable Production of Energy Materials" in RSC.

>> Featured in the Themed Collection of "Energy and Environmental Science Recent Review Articles" in RSC.

EES-1.jpg

[24] Metal substitution steering electron correlations in pyrochlore ruthenates for efficient acidic water oxidation. Link

N. Zhang, C. Wang, J. Chen, C. Hu, J. Ma, X. Deng, B. Qiu, L. Cai, Y. Xiong*, Y. Chai*. ACS Nano 2021, 15(5), 8537-8548. 

ACSNano-1.jpeg

[23] Self-reconstruction mediates isolated Pt tailored nanoframes for highly efficient catalysis. Link

Y. Zuo‡, D. Rao‡, N. Zhang‡, T. Li, T. Jing, Š. Kment, Z. Sofer, Y. Chai*. Journal of Materials Chemistry A 2021, 9(39), 22501-22508. 

JMCA-1.jpg

[22] Spatially confined to massively synthesize single atoms in highly porous carbon nitride nanoreactors. Link

Y. Zuo, T. Li, N. Zhang, T. Jing, D. Rao*, P. Schmuki, Š. Kment*, R. Zbořil, Y. Chai*. ACS Nano 2021, 15(4), 7790-7798. 

[21] Field-Effect Chiral Anomaly Devices with Dirac Semimetal. Link

J. Chen, T. Zhang, J. Wang, N. Zhang, W. Ji, S. Zhou, Y. Chai*. Advanced Functional Materials 2021, 31(40), 2104192. 

[20] Metal-free tellurene cocatalyst with tunable bandgap for enhanced photocatalytic hydrogen production. Link

B. Qiu, C. Wang, J. Wang, Z. Lin, N. Zhang, L. Cai, X. Tao, Y. Chai*. Materials Today Energy 2021, 21, 100720. 


2020

[19] Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation. Link

N. Zhang, X. Feng, D. Rao, X. Deng, L. Cai, B. Qiu, R. Long, Y. Xiong, Y. Lu*, Y. Chai*. Nature Communications 2020, 11, 4066. 

>> Selected as ESI Highly Cited Paper.

>> Featured in Nature Communications Editors' Highlights webpage of "Energy Materials".

NatCommun-1.jpg

[18] A ternary dumbbell structure with spatially separated catalytic sites for photocatalytic overall water splitting. Link

B. Qiu, L. Cai, N. Zhang, X. Tao, Y. Chai*. Advanced Science 2020, 7(17), 1903568. 

[17] Computational design of transition metal single-atom electrocatalysts on PtS2 for efficient nitrogen reduction. Link

L. Cai, N. Zhang, B. Qiu, Y. Chai*. ACS Applied Materials & Interfaces 2020, 12(18), 20448-20455. 

[16] Nano high-entropy materials: synthesis strategies and catalytic applications. Link

H. Li, H. Zhu*, S. Zhang, N. Zhang, M. Du*, Y. Chai*. Small Structures 2020, 1(2), 2000033. 


2019

[15] Optoelectronic resistive random-access memory for neuromorphic vision sensors. Link

F. Zhou, Z. Zhou, J. Chen, T. H. Choy, J. Wang, N. Zhang, Z. Lin, S. Yu, J. Kang, H.-S. P. Wong, Y. Chai*. Nature Nanotechnology 2019, 14(8), 776-782. 

>> Selected as ESI Hot Paper & Highly Cited Paper.

NatNanotech-1.jpg

[14] Defect engineering: a versatile tool for tuning the activation of key molecules in photocatalytic reactions. Link

N. Zhang, C. Gao, Y. Xiong*. Journal of Energy Chemistry 2019, 37, 43-57. 

JEC-1.jpg

[13] Metal-organic framework coating enhances the performance of Cu2O in photoelectrochemical CO2 reduction. Link

X. Deng, R. Li, S. Wu, L. Wang, J. Hu, J. Ma, W. Jiang, N. Zhang, X. Zheng, C. Gao*, L. Wang, Q. Zhang*, J. Zhu, Y. Xiong*. Journal of the American Chemistry Society 2019, 141(27), 10924-10929.

>> Selected as ESI Highly Cited Paper.

[12] CeO2-induced interfacial Co2+ octahedral sites and oxygen vacancies for water oxidation.  Link

B. Qiu, C. Wang, N. Zhang, L. Cai, Y. Xiong, Y. Chai*. ACS Catalysis 2019, 9(7), 6484-6490.

>> Selected as ESI Highly Cited Paper.

[11] Robust photoelectrochemical oxygen evolution with N, Fe-CoS2 nanorod arrays. Link

 J. Lu, L. Cai, N. Zhang, B. Qiu, Y. Chai*. ACS Applied Materials & Interfaces 2019, 11(47), 44214-44222.


2018

[10] Refining defect states in W18O49 by Mo doping: a strategy for tuning N2 activation towards solar-driven nitrogen fixation. Link

N. Zhang, A. Jalil, D. Wu, S. Chen, Y. Liu, C. Gao*, W. Ye, Z. Qi, H. Ju, C. Wang, X. Wu*, L. Song, J. Zhu, Y. Xiong*. Journal of the American Chemical Society 2018, 140(30), 9434-9443. 

>> Selected as ESI Highly Cited Paper.

>> Selected as One of the Most Cited Publications of JACS in 2018-2019.

>> Selected as 6t Admas Outstanding Paper Award in 2019.

>> Highlighted by NSFC, CAS News, USTC News, 科技日报, 人民网, 科学网, 新华网, 央广网, 中国社会科学网, etc.

JACS-2.jpg

[9] Recent progress on advanced design for photoelectrochemical reduction of CO2 to fuels. Link

 N. Zhang, R. Long, C. Gao*, Y. Xiong*.  Science China Materials 2018, 61(6), 771-805.

>> Selected as Science China Materials Best Paper Award in 2019.

SCM-1.jpg

[8] Defect engineering in photocatalytic materials. Link

S. Bai*, N. Zhang, C. Gao, and Y. Xiong*. Nano Energy 2018, 53, 296-336.

>> Selected as ESI Highly Cited Paper.

NanoEnergy-1.jpg


2017

[7] Defective tungsten oxide hydrate nanosheets for boosting aerobic coupling of amines: synergistic catalysis by oxygen vacancies and Brønsted acid sites. Link

N. Zhang, X. Li, Y. Liu, R. Long, M. Li, S. Chen, Z. Qi, C. Wang, L. Song, J. Jiang, Y. Xiong*. Small 2017, 13(31), 1701354.

Small-2.jpg

[6] PdPt alloy nanocatalysts supported on TiO2: maneuvering metal-hydrogen interactions for light-driven and water-donating selective alkyne semihydrogenation. Link

M. Li‡, N. Zhang‡, R. Long*, W. Ye, C. Wang, Y. Xiong*. Small 2017, 13(23), 1604173. 

Small-1.jpg

[5] Noble-metal-free Janus-like structures by cation exchange for Z-scheme photocatalytic water splitting under broadband light irradiation. Link

Q. Yuan, D. Liu, N. Zhang, W. Ye, H. Ju, L. Shi, R. Long, J. Zhu, Y. Xiong*. Angewandte Chemie International Edition 2017, 56(15), 4206-4210


2016

[4] Oxide defect engineering enables to couple solar energy into oxygen activation. Link

N. Zhang, X. Li, H. Ye, S. Chen, H. Ju, D. Liu, Y. Lin, W. Ye, C. Wang, Q. Xu, J. Zhu, L. Song, J. Jiang*, Y. Xiong*. Journal of the American Chemical Society 2016, 138(28), 8928-8935.

>> Selected as ESI Highly Cited Paper.

>> Highlighted by CAS News, USTC News, 中国科学报, 安徽日报, 人民网, 科学网, 新华网, 央广网, etc.

JACS-1.jpg

[3] Maneuvering charge polarization and transport in 2H-MoS2 for enhanced electrocatalytic hydrogen evolution reaction.  Link

W. Ye, C. Ren, D. Liu, C. Wang, N. Zhang, W. Yan, L. Song, Y. Xiong*. Nano Research 2016, 9(9), 2662-2671.


Before 2016

[2] Layer-by-layer β-Ni(OH)2/graphene nanohybrids for ultra-flexible all-solid-state thin-film supercapacitors with high electrochemical performance. Link

J. Xie, X. Sun, N. Zhang, K. Xu, M. Zhou, Y. Xie*. Nano Energy 2013, 2, 65-74. 

>> Selected as ESI Highly Cited Paper.

[1] Ambient rutile VO2(R) hollow hierarchitectures with rich grain boundaries from new-state nsutite-type VO2 displaying enhanced hydrogen adsorption behaviour. Link

J. Xie, C. Wu*, S. Hu, J. Dai, N. Zhang, J. Feng, J. Yang, Y. Xie*. Physical Chemistry Chemical Physics 2012, 14(14), 4810-4816. 


发明专利

[2] 熊宇杰、李梦俏、张宁、龙冉,一种氢转移制备烯烃的方法,中国发明专利,已授权,授权号:ZL201710232958.7,授权时间:20191122

[1] 熊宇杰张宁一种用于光催化有氧偶联的缺陷态三氧化钨的制备方法中国发明专利已授权授权号: ZL201610430182.5,授权时间:20171031




版权所有 ©2020 中国科学技术大学
地址:安徽省合肥市金寨路 96 号,邮政编码:230026