陈煜 - 陕西师范大学 - 材料科学与工程学院

个人简介

理学博士，南京大学，2006.09-2009.02 教授，陕西师范大学，2015.12-至今近年主持国家自然科学基金、省自然科学基金、中央高校基金等科研项目9项，获授权中国发明专利7项。作为第一/通讯作者在Nano Energy, NPG Asia Materials, ACS Catalysis, Scientific Reports, Chemistry–A European Journal, Nanoscale, Journal of Materials Chemistry A, Nano Research, ACS Applied Materials & Interfaces, The Journal of Physical Chemistry C, Langmuir等期刊发表SCI论文70余篇(被引1900余次，H-index为27，i10-index为60，来源于Google Scholar)，9篇论文入选ESI高被引论文(J. Power Sources 2010, 195, 4129; Int. J. Hydrogen Energy. 2010, 35, 10109; Int. J. Hydrogen Energy. 2012, 37, 2993; Appl. Catal. B: Environ. 2013, 129, 394; J. Phys. Chem. C. 2013, 117, 9826; CrystEngComm 2014, 16, 1606; Chem. Eur. J. 2014, 20, 585; ACS Appl. Mater. Interfaces 2014, 6, 7301; Nano Energy 2015, 12, 824)，1篇论文选为封面论文刊出(CrystEngComm 2014, 16, 1606)，1篇论文获ChemistryViews网站亮点介绍(ChemPlusChem 2012, 77, 914)。

研究领域

目前主要从事结构功能纳米材料的设计合成及其在化学/电化学能量转换技术方面的工作。 (i) 高性能低温燃料电池阴/阳极贵金属纳米晶电催化剂的设计合成。 (ii) 高分子聚合物-贵金属纳米晶有机-无机复合材料的界面结构-催化活性相互关系研究。 (iii)原子厚超薄二维过渡金属/贵金属纳米材料的设计合成及其在水电解池、氮气电化学还原和化学产氢领域中的应用。 (iv)碳材料在金属空气电池和水电解池领域中的应用。

近期论文

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Porous trimetallic PtRhCu cubic nanoboxes for the ethanol electrooxidation. Advanced Energy Materials 2018, 8, 1801326. Anodic hydrazine oxidation assists energy-efficient hydrogen evolution over a bifunctional cobalt perselenide nanosheet electrode. Angewandte Chemie International Edition 2018, 130, 7775. Direct chemical synthesis of ultrathin holey iron doped cobalt oxide nanosheets on nickel foam for oxygen evolution reaction. Nano Energy 2018, 54, 238. Au nanowires@Pd-polyethyleneimine nanohybrids as highly active and methanol-tolerant electrocatalysts towards oxygen reduction reaction in alkaline media. ACS Catalysis 2018, 8, 11287. Pd-Sn bimetallic nanocrystals for efficient H2O2 production: The influence of Sn on structure evolution and catalysis. ACS Catalysis 2018, 8, 3418. Ultrathin Co3O4 nanomeshes for the oxygen evolution reaction. ACS Catalysis 2018, 8, 1913. Interfacial proton enrichment enhances proton-coupled electrocatalytic reactions. Journal of Materials Chemistry A 2018, 6, 17771. From monometallic Au nanowires to trimetallic AuPtRh nanowires: Interface control for the formic acid electroxidation. Journal of Materials Chemistry A 2018, 6, 17164. Surfactant-free atomically ultrathin rhodium nanosheets nanoassemblies for efficient nitrogen electroreduction. Journal of Materials Chemistry A 2018, 6, 3211. Selective etching induced synthesis of hollow Rh nanospheres electrocatalyst for alcohols oxidation reactions. Small 2018, 14, 1801239. Polyallylamine functionalized platinum tripods: Enhancement of hydrogen evolution reaction by proton carriers. ACS Catalysis 2017, 7, 452. Bimetallic AuRh nanodendrites consisting of Au cores and atomically ultrathin Rh nanoplate shells: Synthesis and light-enhanced catalytic activity. NPG Asia Materials 2017, 9, e407. Polyethyleneimine functionalized platinum superstructures: Enhancing hydrogen evolution performance by morphological and interfacial control. Chemical Science 2017, 8, 8411. A microribbon hybrid structure of CoOx-MoC encapsulated in N-doped carbon nanowire derived from MOF as efficient oxygen evolution electrocatalysts. Small 2017, 13, 1702753. Morphological and interfacial control of platinum nanostructures for electrocatalytic oxygen reduction. ACS Catalysis 2016, 6, 5260. Sandwich-structured Au@polyallylamine@Pd nanostructures: tuning electronic property of Pd shell for electrocatalysis. Journal of Materials Chemistry A 2016, 4, 12020. Trimetallic PtAgCu@PtCu core@shell concave nanooctahedrons with enhanced activity for formic acid oxidation reaction. Nano Energy 2015, 12, 824. Thermal decomposition synthesis of functionalized PdPt alloy nanodendrites with high selectivity for oxygen reduction reaction. NPG Asia Materials 2015, 7, e219. Polyethyleneimine-assisted synthesis of high-quality platinum/graphene hybrids: the effect of molecular weight on electrochemical properties. Journal of Materials Chemistry A 2015, 3, 12000. Ethanol-tolerant polyethyleneimine functionalized palladium nanowires in alkaline media: the "molecular window gauze" induced the selectivity for the oxygen reduction reaction. Journal of Materials Chemistry A 2015, 3, 21083.