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陈乾旺
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陈乾旺

博士生导师、教授

所在地:安徽合肥市 入职年份: 资料待完善 学历: 硕士 毕业院校: 资料待完善

从事领域 资料待完善

擅长能力 1、纳米催化、储能2、纳米粒子生物医学应用和交叉学科3、磁场下的化学反应与材料合成

/ 男,1965年生,1995年获中国科学技术大学理学博士学位,后在日本、德国(洪堡学者)和香港从事博士后和访问研究。主要从事材料合成与应用研究,涉及强磁场等特殊条件下的材料合成、能量转换与储能、表面化学、纳米生物学等,已发表SCI检索论文340余篇,论文获引用14220余次(含自引),单篇最高他引超过780余次。发表论文包括Nature Comunications, Advanced Materials, JACS,Chem. Soc. Rev.等,在高等教育出版社出版研究生教材《纳米科技基础》和专著《磁化学与材料合成》各一部。完成和在研项目包括:国家自然科学基金,国家杰出青年科学基金,国家基金委"纳米重大研究计划"重点基金、国家高技术研究发展计划(863计划)课题、国家重点研发计划项目、国家自然科学基金委员会和中科院大科学装置联合基金重点支持项目等。2001年获国家杰出青年科学基金;2012年入选教育部"奖励计划"特聘教授;2014年国家人事部等七部委首批"新世纪百千万人才工程"国家级人选。 1. Ferroelectric properties of porous silicon. Advanced Materials 14 (2002)134. 2. Reduction of carbon dioxide by magnetite: Implications for the primordial synthesis of organic molecules, J. Am. Chem. Soc. 122 (2000) 970. 3. Nondegrading photoluminescence in porous silicon, Physical Review Letters 81 (1998)1710. 4. Magnetic-field-induced growth of single-crystalline Fe3O4 nanowires, Advanced Materials 16(2004)137. 5. High lithium anodic performance of super-high nitrogen-doped porous carbon prepared from a metal-organic framework, Nature Communications 5(2014)5261. 6.Ruthenium-cobalt nanoalloys encapsulated in nitrogen-doped graphene as active electrocatalysts for producing hydrogen in alkaline media, Nature Communications 8(2017) 14969. 7.Tuning the Activity of Carbon for Electrocatalytic Hydrogen Evolution via an Iridium-Cobalt Alloy Core Encapsulated in Nitrogen-Doped Carbon Cages, Advanced Materials 2018, 1705324 8. O-, N-Atoms-Coordinated Mn Cofactors within a Graphene Framework as Bioinspired Oxygen Reduction Reaction Electrocatalysts, Advanced Materials 2018, 1801732. 9. Dual Graphitic-N Doping in One Six-member C-ring of Graphene Analogous Particles Enabled an Efficient Electrocatalyst toward Hydrogen Evolution Reaction, Angew. Chem. Int. Ed. 58(2019)2-10 10.Turning main-group element magnesium into a highly active electrocatalyst for oxygen reduction reaction,Nature Communications 11(2020),938. 11.Tuning the p-Orbital Electron Structure of s-Block Metal Ca Enables a High-Performance Electrocatalyst for Oxygen Reduction, Adv. Mater. 2021, 2107103. 12.Constructing Graphitic-Nitrogen-Bonded Pentagons in Interlayer-Expanded Graphene Matrix toward Carbon-Based Electrocatalysts for Acidic Oxygen Reduction Reaction, Adv. Mater. 2021, 2103133.

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