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朱俊发
2023-05-16 13:46
  • 朱俊发
  • 朱俊发 - 研究员-中国科学技术大学-核科学技术学院-个人资料

近期热点

资料介绍

个人简历


朱俊发,男,国家同步辐射实验室和化学物理系双聘教授,博士生导师。中国科学院“引进海外杰出人才”,教育部 “新世纪优秀人才支持计划”获得者。Surface Science Reports杂志编辑,Surface Science杂志顾问编委(Advisory Editorial Board),国际ICSOS(International Conference on the Structures of Surfaces)顾问委员会成员(Advisory Committee)。
9/1989-7/1993 安徽大学化学系,本科生
9/1993-1/1996 中国科学技术大学化学物理系,硕士研究生
3/1996-12/1998 中国科学技术大学化学物理系,博士研究生
1/1999-3/2000 中国科技大学国家同步辐射实验室,博士后
5/2000-5/2001 奥地利林茨大学实验物理研究所,博士后
6/2001-9/2003 德国Erlangen-Nürnberg大学理论与物理化学研究所,研究员(Wiss. Mitarbiter)
10/2003-11/2006 美国华盛顿大学(西雅图)化学系,Acting Instructor
12/2006-至今 中国科技大学国家同步辐射实验室,研究员
7/2007-10/2007 美国华盛顿大学(西雅图)化学系,访问教授
7/2010-8/2010 德国Erlangen-Nürnberg大学理论与物理化学研究所,访问教授
11/2016-05/2017 美国华盛顿大学(西雅图)化学系,高级访问学者
主要开展表面化学与催化、表面自组装与反应、薄膜功能材料和有机光电器件表界面物理化学及同步辐射原位研究方法学等方面的研究工作,共在Nature Comm., J. Am. Chem. Soc.和Angew. Chem. Int. Ed.等国内外核心刊物上发表论文320余篇,论文被引用11000余次,H-index为58。自2006年12月回国以来,负责和参加了国家自然科学基金重点和面上项目、科技部重点专项子课题、教育部博士点基金、中科院方向性项目和科技部“973”计划等10余项科研项目。同时,总体负责国家同步辐射实验室“催化与表面科学“及”光电子能谱“两个实验线站的建设、开放运行和管理工作。

研究领域


1、表面物理与化学
2、同步辐射应用
3、纳米材料与催化""

近期论文


1) In Situ Investigations of Al/Perovskite Interfacial Structures - ACS Applied Materials & Interfaces - 2020 - 12, 28861-28868
2) On-surface synthesis of planar acenes via regioselective aryl-aryl coupling - Chemical Communications - 2020 - 56,4890-4893
3) On-Surface Synthesis of Armchair-Edged Graphene Nanoribbons with Zigzag Topology - The Journal of Physical Chemistry C - 2020 - 124, 5248-5236
4) Formic acid adsorption and decomposition on clean and atomic oxygen pre-covered Cu(100) surfaces - The Journal of Chemical Physics - 2020 - 152, 114703
5) Interaction between Cu Nanoparticles and CeO2 (111) Film Surfaces - The Journal of Physical Chemistry C - 2019 - 123, 23563-23571
6) Reaction selectivity of homochiral versus heterochiral intermolecular reactions of prochiral terminal alkynes on surfaces - Nature Communications - 2019 - 10, 4122
7) Supramolecular Tessellations at Surfaces by Vertex Design - ACS Nano - 2019 - 13,10603-10611
8) Confined on-surface organic synthesis: Strategies and mechanisms - Surface Science Reports - 2019 - 74,97-140
9) Surface Adatom Mediated Structural Transformation in Bromoarene Monolayers: Precursor Phases in Surface Ullmann Reaction - ACS Nano - 2018 - 12,2267-2274
10) Unravelling the Mechanism of Glaser Coupling Reaction on Ag(111) and Cu(111) Surfaces: a Case for Halogen Substituted Terminal Alkyne - The Journal of Physical Chemistry C - 2018 - 122, 14537-14545
11) MOF-Derived Ultrathin Cobalt Phosphide Nanosheets as Efficient Bifunctional Hydrogen Evolution Reaction and Oxygen Evolution Reaction Electrocatalysts - Nanomaterials - 2018 - 8(2), 89
12) Temperature-induced structural evolution of Sm nanoparticles on Al 2 O 3 thin film: An in-situ investigation using SRPES, XPS and STM - Applied Surface Science - 2018 - 432, 115-120
13) Construction of molecular regular tessellations on a Cu(111) surface - Chemical Communications - 2018 - 54, 7010-7013
14) Kinetic Strategies for the Formation of Graphyne Nanowires via Sonogashira Coupling on Ag(111) - Journal of the American Chemical Society - 2018 - 140, 13421-13428
15) On-Surface Pseudo-High-Dilution Synthesis of Macrocycles: Principle and Mechanism - ACS Nano - 2017 - 11, 5070-5079
16) Highly Selective Synthesis of cis -Enediynes on a Ag(111) Surface - Angew. Chem. Int. Ed. - 2017 - 56, 4762-4766
17) Chiral Kagome Lattices from On-Surface Synthesized Molecules - ChemPhysChem - 2017 - 18, 3329-3333
18) Confined Synthesis of Organometallic Chains and Macrocycles by Cu–O Surface Templating. - ACS Nano - 2016 - 10 (3), 3747–3754.
19) Interplay between Interfacial Structures and Device Performance in Organic Solar Cells: A Case Study with the Low Work Function Metal, Calcium. - ACS Applied Materials & Interfaces - 2016 - 8(3), 2125-2131
20) Metalation of tetraphenylporphyrin with nickel on a TiO2(110)-1×2 surface. - Nanoscale - 2016 - 8, 1123-1132
21) Low-Temperature Dissociation of CO2 on a Ni/CeO2(111)/Ru(0001) Model Catalyst. , - J. Phys. Chem. C - 2016 - 120(11), 5980–5987.
22) Interface properties between a low band gap conjugated polymer and a calcium metal electrode. - Phys. Chem. Chem. Phys. - 2016 - 18, 9446-9452
23) X-ray Absorption Spectroscopy Characterization of a Li/S Cell. - Nanomaterials - 2016 - 6(1), 14
24) X-ray Absorption Spectroscopic Characterization of the Synthesis Process: Revealing the Interactions in Cetyltrimethylammonium Bromide-Modified Sulfur–Graphene Oxide Nanocomposites. - J. Phys. Chem. C - 2016 - 120(19), 10111-10117
25) The role of the substrate structure in the on-surface synthesis of organometallic and covalent oligophenylene chains. - Phys. Chem. Chem. Phys. - 2016 - 18, 20627-20634
26) Metal-organic gel templated synthesis of magnetic porous carbon for highly efficient removal of organic dyes. - Dalton Transactions - 2016 - 45(11),4541-4547
27) Interaction of Zr with oxidized and partially reduced ceria thin films. - Surf. Sci. - 2016 - 653, 205-210.
28) Surface-Catalyzed C-C Covalent Coupling Strategies toward the Synthesis of Low-Dimensional Carbon-Based Nanostructures. - Accounts of Chemical Research - 2015 - 48(8), 2484–2494
29) Interaction of Zr with CeO2(111) Thin Film and Its Influence on Supported Ag Nanoparticles. - Journal of Physical Chemistry C - 2015 - 119(32), 18257-18266
30) An Efficient Room Temperature Core-Shell AgPd@MOF Catalyst for Hydrogen Production from Formic Acid. - Nanoscale - 2015 - 7, 8321-8325
31) Engineering the metal–organic interface by transferring a high-quality single layer graphene on top of organic materials. - Carbon - 2015 - 87, 78-86
32) Atomic-Scale Insight into the Metal–Support Interaction: A Case for Ag Nanoparticles on Ordered ZrO2(111) Thin Films. - Journal of Physical Chemistry C - 2015 - 119(8),4235
33) Ag Nanoparticles on Reducible CeO2(111) Thin Films: Effect of Thickness and Stoichiometry of Ceria. - Journal of Physical Chemistry C - 2015 - 119(7), 357
34) Facile fabrication of CdS–metal-organic framework nanocomposites with enhanced visible-light photocatalytic activity for organic transformation. - Nano Research - 2015 - 8(6), 1834-1846
35) Tribromobenzene on Cu(111): Temperature-dependent formation of halogen-bonded, organometallic, and covalent nanostructures. - Journal of Chemical Physics - 2015 - 142, 1010906
36) Multifunctional Au-Fe3O4@MOF core-shell nanocomposite catalysts with controllable reactivity and magnetic recyclability. - Nanoscale - 2015 - 7, 1201-1208.
37) Growth, Electronic Structure and Thermal Stability of Ni on ZrO2(111) Thin Film Surfaces. - Acta Phys. -Chim. Sin. - 2015 - 31(11), 2151-2157.
38) Covalent, Organometallic and Halogen Bonded Nanomeshes from Tetrabromo-Terphenyl by Surface-Assisted Synthesis on Cu(111) - Journal of Physical Chemistry C - 2014 - 118, 13018
39) Coordination reaction between tetraphenylporphyrin and nickel on a TiO2(110) surface - Chem. Commun. - 2014 - 50, 8291-8294
40) Understanding the degradation mechanism of rechargeable lithium/sulfur cells: a comprehensive study of the sulfur-graphene oxide cathode after discharge/charge cycling - Physical Chemistry Chemical Physics - 2014 - 16(32), 16931-16940
41) Surface-Assisted Formation, Assembly and Dynamics of Planar Organometallic Macrocycles and Zigzag Shaped Polymer Chains with C-Cu-C Bonds. - ACS Nano - 2014 - 8(1), 709-718
42) Direct Synthesis of Nickel(II)Tetraphenylporphyrin and Its Interactionwith a Au(111) Surface: A Comprehensive Study - J. Phys. Chem. C - 2010 - 114, 9908-9916
43) Electronic structure and chemical reaction of Ca deposition on regioregular poly(3-hexylthiophene) surfaces - Chinese Science Bulletin - 2009 - 54,1978
44) Formation of the Calcium/Poly(3-Hexylthiophene) Interface: Structure and Energetics - J. Am. Chem. Soc. - 2009 - 131,13498
45) Calcium Adsorption on MgO(100): Energetics, Structure, and Role of Defects. - J. Am. Chem. Soc. - 2008 - 130,2314
46) Adsorption Energy, Growth Mode, and Sticking Probability of Ca on Poly(methyl methacrylate) Surfaces with and without Electron Damage - J. Am. Chem. Soc. - 2007 - 129(20), 6431
47) Adsorption of Pb on NiAl(110): Energetics and structure. - Surf. Sci. - 2005 - 574, 34

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