崔胜胜
发表时间:2019-09-25 阅读次数:1200次

教育背景

2019年6月 至今 上海交通大学电子信息与电气工程学院, 博士后

2014年9月-2019年6月  中国科学技术大学化学与材料工程学院, 博士 

2010年9月-2014年6月  北京科技大学材料学院, 学士

研究方向

纳米碳材料的合成及其在生物医学方面的应用

发表文章

[1] Shengsheng Cui, Qiang Huang, Jinyi Wang, Hongxing Jia, Pingsen Huang, Shengda Wang, Pingwu Du. From Planar Macrocycle to Cylindrical Molecule: Synthesis and Properties of a Phenanthrene-Based Coronal Nanohoop as a Segment of [6,6]Carbon Nanotube. Organic Letters, 2019, 21, 5917-5921.

[2] Shengsheng Cui,# Guilin Zhuang,# Jinyi Wang, Qiang Huang, Shengda Wang, Pingwu Du. Multifunctionalized Octamethoxy-[8]Cycloparaphenylene: Facile Synthesis, Analysis of Novel Photophysical and Photoinduced Electron Transfer Properties. Organic Chemistry Frontiers, 2019, 6, 1885–1890. (Co-author)

[3] Shengsheng Cui,# Guilin Zhuang,# Dapeng Lu, Qiang Huang, Hongxing Jia, Ya Wang, Shangfeng Yang, Pingwu Du. A Three-Dimensional Capsule-like Carbon Nanocage as a Segment Model of Capped Zigzag [12,0] Carbon Nanotubes: Synthesis, Characterization, and Complexation with C70. Angewandte Chemie International Edition, 2018, 57 (30), 9330-9335. (Co-author)

[4] Manman Qian,# Shengsheng Cui,# Daochuan Jiang, Lei Zhang, Pingwu Du. Highly Efficient and Stable Water-Oxidation Electrocatalysis with a Very Low Overpotential using FeNiP Substitutional-Solid-Solution Nanoplate Arrays. Advanced Materials, 2017, 29 (46), 1704075. (Co-author)

[5] Ruigen Ding,# Shengsheng Cui,# Jie Lin, Zijun Sun, Pingwu Du, Chusheng Chen. Improving the water splitting performance of nickel electrodes by optimizing their pore structure using a phase inversion method. Catalysis Science & Technology, 2017, 7 (14), 3056-3064. (Co-author)

[6] Shengsheng Cui, Manman Qian, Xiang Liu, Zijun Sun, Pingwu Du. A Copper Porphyrin-Based Conjugated Mesoporous Polymer-Derived Bifunctional Electrocatalyst for Hydrogen and Oxygen Evolution. ChemSusChem, 2016, 9 (17), 2365-2373.

[7] Shengsheng Cui, Xiang Liu, Zijun Sun, Pingwu Du. Noble metal-free copper hydroxide as an active and robust electrocatalyst for water oxidation at weakly basic pH. ACS Sustainable Chemistry & Engineering, 2016, 4 (5), 2593-2600.

[8] Mengrong Zhang, Taotao Wang, Hongyun Cao, Shengsheng Cui, Pingwu Du. Self-supported Ni2P nanosheets on low-cost three-dimensional Fe foam as a novel electrocatalyst for efficient water oxidation. Journal of Energy Chemistry, 2020, 42, 71–76.

[9] Qiang Huang,# Guilin Zhuang,# Hongxing Jia,# Manman Qian, Shengsheng Cui, Shangfeng Yang, Pingwu Du. Photoconductive curved-nanographene/fullerene supramolecular heterojunctions. Angewandte Chemie International Edition, 2019, 58, 1-7.

[10] Dapeng Lu,# Guilin Zhuang,# Hongxing Jia, Jinyi Wang, Qiang Huang, Shengsheng Cui, Pingwu Du. A novel symmetrically multifunctionalized dodecamethoxy-cycloparaphenylene: synthesis, photophysical, and supramolecular properties. Organic Chemistry Frontiers, 2018, 5 (9), 1446-1451.

[11] Hongxing Jia, Yuyue Gao, Qiang Huang, Shengsheng Cui, Pingwu Du. Facile three-step synthesis and photophysical properties of [8]-,[9]-, and [12] cyclo-1,4-naphthalene nanorings via platinum-mediated reductive elimination. Chemical Communications, 2018, 54 (8), 988-991.

[12] Manman Qian,# Xiang Liu,# Shengsheng Cui, Hongxing Jia, Pingwu Du. Copper oxide nanosheets prepared by molten salt method for efficient electrocatalytic oxygen evolution reaction with low catalyst loading. Electrochimica Acta, 2018, 263, 318-327.

[13] Dapeng Lu, Shengsheng Cui, Pingwu Du. Large π-Extension of Carbon Nanorings by Incorporating Hexa-peri-hexabenzocoronenes. Synlett, 2017, 28 (14), 1671-1677.

[14] Rana Muhammad Irfan, Daochuan Jiang, Zijun Sun, Lei Zhang, Shengsheng Cui, Pingwu Du. Incorporating a molecular co-catalyst with a heterogeneous semiconductor heterojunction photocatalyst: Novel mechanism with two electron-transfer pathways for enhanced solar hydrogen production. Journal of Catalysis, 2017, 353, 274-285.

[15] Xiang Liu, Shengsheng Cui, Zijun Sun, Yang Ren, Xiaoyi Zhang, Pingwu Du. Self-Supported copper oxide electrocatalyst for water oxidation at low overpotential and confirmation of its robustness by Cu K-edge X-ray absorption spectroscopy. Journal of Physical Chemistry C, 2016, 120 (2), 831-840.

[16] Xiang Liu, Shengsheng Cui, Manman Qian, Zijun Sun, Pingwu Du. In situ generated highly active copper oxide catalysts for the oxygen evolution reaction at low overpotential in alkaline solutions. Chemical Communications, 2016, 52 (32), 5546-5549.

[17] Xiang Liu, Zijun Sun, Shengsheng Cui, Pingwu Du. Cuprous oxide thin film directly electrodeposited from a simple copper salt on conductive electrode for efficient oxygen evolution reaction. Electrochimica Acta, 2016, 187, 381-388.

[18] Xiang Liu, Shengsheng Cui, Zijun Sun, Pingwu Du. Robust and highly active copper-based electrocatalyst for hydrogen production at low overpotential in neutral water. Chemical Communications, 2015, 51 (65), 12954-12957.

[19] Xiang Liu, Shengsheng Cui, Zijun Sun, Pingwu Du. Copper oxide nanomaterials synthesized from simple copper salts as active catalysts for electrocatalytic water oxidation. Electrochimica Acta, 2015, 160, 202-208.

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