邓庆明,1984年6月生,德国-德累斯顿工业大学获得理学博士学位,丹麦科学技术大学从事博士后科研工作。于2016年6月加入淮阴师范学院,2017年晋升教授。曾获欧盟-玛丽居里学者奖、江苏省“优秀青年基金”获得者、江苏省“六大人才高峰”高层次人才培养对象、江苏省“双创计划”双创博士、江苏省“333人才工程”中青年科学技术带头人、淮安市“十大青年科技之星”等荣誉。主持过国家自然科学基金、江苏省自然科学基金、欧盟玛丽居里基金等多个科研项目。在多个重要学术期刊上发表了40余篇论文,包括Science、Physical Review Letters、Journal of the American Chemical Society、Angewandte Chemie-International Edition、Advanced Materials、Advanced Functional Materials、Advanced Science、Nature Communications、Science Advances、Nano Letters和ACS Nano等。其中,SCI一区文章近30篇,影响因子10以上的文章超过20篇。
研究方向:低维材料的电学和力学性质,以及二维材料催化剂的设计等方面。
工作经历:
2017年7月---至今: 淮阴师范学院,教授;
2016年7月---至今: 淮阴师范学院,翔宇学者;
2016年11月---2019年4月: 丹麦科学技术大学,博士后;
2012年8月---2016年6月: 德国莱布尼兹固态物理研究所,科研人员;
2011年4月---2012年7月: 中科院高能物理研究所,科研助理
主要研究方向:
主持基金:
1. 2021年江苏省优秀自然科学基金,
2. 2017年国家自然科学基金-青年项目,
3. 2017年江苏省自然科学基金-青年项目,
4. 2016年欧盟-玛丽居里-奥斯特联合学者基金
人才获奖:
2018年江苏省333人才工程“中青年学术技术带头人”,
2018年度欧盟委员会-玛丽居里学者奖,
2018年度淮安市首届十大青年科技之星。
2017年被遴选为江苏省“六大人才高峰”高层次人才培养对象,
2017年被遴选为江苏省“双创博士”培养对象,
任现职期间(2016-至今)主要发表论文:
1) Fu et al.,Site-specific electrical contacts with the two-dimensional materials. Nature communications,14 (1), 6462,2023. (通讯作者,SCI一区)
2) Sun, et al., Direct Visualization of Atomic Structure in Multivariate MOFs for Guiding Electrocatalysts Design. Angewandte Chemie International Edition, 135 (4), e202216008,2023. (通讯作者,SCI一区)
3) Liu, et al., Controlled Adhesion of Ice–Towards Ultra‐Clean 2D Materials. Advanced Materials, 2210503,2023. (通讯作者,SCI一区)
4) Thi et al., Ultrahigh lubricity between two-dimensional ice and two-dimensional atomic layers. Nano Letters , 23, 4, 1379–1385,2023. (通讯作者,SCI一区)
5) Feng et al., One-Dimensional 3d-TM–Solophene Polymers as High-Activity Single‐Atom Catalysts for CO Oxidation. Applied Surface Science, 618, 156680,2023. (通讯作者,SCI一区)
6) Jin et al., N‐stabilized metal single atoms enabled rich defects for noble‐metal alloy toward superior water reduction. EcoMat, e12267, 2023. (通讯作者,SCI二区)
7) Feng, et al., Role of macrocyclic salen-type Schiff base ligands in one-dimensional Co (II) complexes for superior activities toward oxygen reduction/evolution reactions. International Journal of Hydrogen Energy, 47 (63), 27000-27011, 2022. (通讯作者,SCI二区)
8) Huang et al.,Mechanical origin of martensite-like structures in two-dimensional ReS2. Communications Materials,2 (1),1-10,2021. (通讯作者)
9) Huang et al., Redox Photochemistry on Van Der Waals Surfaces for Reversible Doping in 2D Materials. Advanced Functional Materials,31 (16),2009166,2021. (通讯作者,SCI一区)
10) Deng et al.,1D metal-dithiolene wires as a new class of bi-functional oxygen reduction and evolution single-atom electrocatalysts. Journal of Catalysis,393,140-148,2021. (通讯作者,SCI一区)
11) Chen et al.,Unveiling the Critical Intermediate Stages During Chemical Vapor Deposition of Two-Dimensional Rhenium Diselenide. Chemistry of Materials,33 (17),7039-7046,2021. (通讯作者,SCI二区)
12) Zheng et al.,Critical stable length in wrinkles of two-dimensional materials. ACS nano,14 (2),2137-2144,2020. (通讯作者,SCI一区)
13) Zheng et al.,The Mobile and Pinned Grain Boundaries in 2D Monoclinic Rhenium Disulfide. Advanced Science,7 (22),2001742,2020. (通讯作者,SCI一区)
14) Wong et al.,Site-specific electrical contacts with the two-dimensional materials. Nature communications,11 (1),1-10,2020. (通讯作者,SCI一区)
15) Huang et al.,Anomalous fracture in two-dimensional rhenium disulfide. Science advances,6 (47),eabc2282,2020. (共一作者,SCI一区)
16) Huang et al.,In situ scanning transmission electron microscopy observations of fracture at the atomic scale. Physical Review Letters,125 (24),246102,2020. (共一作者,SCI一区)
17) Deng. et al.,2D transition metal–TCNQ sheets as bifunctional single-atom catalysts for oxygen reduction and evolution reaction (ORR/OER). Journal of Catalysis,370,378-384,2019. SCI一区
18) Deng et al.,Combinatorial selection of a two-dimensional 3d-TM-tetracyanoquinodimethane (TM-TCNQ) monolayer as a high-activity nanocatalyst for CO oxidation. Physical Chemistry Chemical Physics,20 (7),5173-5179,2018. ,SCI二区
19) Deng. et al.,Impact of Polar Edge Terminations of the Transition Metal Dichalcogenide Monolayers during Vapor Growth. The Journal of Physical Chemistry C,122 (6),3575-3581,2018. ,SCI三区
20) Deng. et al. Triggering One-Dimensional Phase Transition with Defects at the Graphene Zigzag Edge. Nano Letters , 16 (2), 1244-1249
21) Deng et al., Self-assembly of endohedral metallofullerenes: a decisive role of cooling gas and metal–carbon bonding. Nanoscale 8 (6), 3796-3808,SCI二区
2016年之前代表作:
1. Deng, Q.; Popov, A. A., Clusters encapsulated in endohedral metallofullerenes: how strained are they? Journal of the American Chemical Society, 136 (11), 4257-4264, 2014.
2. Zhao, J.; Deng, Q.; Bachmatiuk, A.; Sandeep, G.; Popov, A.; Eckert, J.; Rümmeli, M. H., Free-standing single-atom-thick iron membranes suspended in graphene pores. Science, 343 (6176), 1228-1232, 2014.
3. Zhao, J.; Deng, Q.; Avdoshenko, S. M.; Fu, L.; Eckert, J.; Rümmeli, M. H., Direct in situ observations of single Fe atom catalytic processes and anomalous diffusion at graphene edges. Proceedings of the National Academy of Sciences, 111 (44), 15641-15646, 2014.
4. Deng, Q.; Popov, A. A., Prato and Bingel–Hirsch cycloaddition to heptagon-containing LaSc 2 N@ C s (hept)-C 80: importance of pentalene units. Chemical Communications, 51 (26), 5637-5640, 2015.
5. Deng, Q.; Zhao, L.; Gao, X.; Zhang, M.; Luo, Y.; Zhao, Y., Single layer of polymeric cobalt phthalocyanine: promising low‐cost and high‐activity nanocatalysts for CO oxidation. Small, 9 (20), 3506-3513, 2013.
联系方式:q.deng@hytc.edu.cn