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赵焱
来源:bevictor伟德官网 发布时间:2023-05-29 浏览次数:

赵焱教授简介(短):

赵焱,二级教授,博导,国家高层次特聘专家和湖北省“百人计划”专家,长期从事理论计算化学和计算材料学等邻域的研究工作,在高精确度理论化学数据库的发展、新一代密度泛函的开发和应用、纳米材料的模拟、计算催化、计算化学软件开发、3D打印等领域做出了突出贡献。全世界许多研究小组应用赵教授发展的M06密度泛函方法进行理论计算模拟研究,有10位诺奖获得者运用过M06系列泛函,有200多篇Nature和Science及其子刊的论文都运用了赵焱教授发展的M06理论计算方法。赵焱教授在其研究领域的国际权威刊物上发表高水平研究论文230余篇,SCI引用超过57000次,其中M06论文单篇引用超过19000,H因子为65,2014~2017连续4年都被美国汤森路透集团和科睿唯安公司列入全球高被引科学家名单。赵焱教授是美国惠普公司MJF-3D打印技术的主创人员之一,授权国际专利25项,担任《Energy & Environmental Materials》(IF=13.4)副主编,《Interdisciplinary Materials》 学术主编, 《Nanomaterials》 (IF=5.719) Editorial Board Member,《武汉大学学报(工学版)》编委。



职称/学术兼职:首席教授,博导,PI

联系方式:yanzhao@scu.edu.cn

教育经历

2000-2005,理学博士,美国明尼苏达大学化学系

1993-1999,工学博士,伟德bevictor中文版轻纺学院

1989-1993,理学学士,复旦大学材料科学系

工作经历

2022/11-至今,二级教授,bevictor伟德官网

2017/7-2022/10,首席教授,武汉理工大学,

2016/4-2017/7 高级研究员兼产品研发经理,美国应用材料公司     

2009/1-2016/4首席研究员,美国惠普中央研究院 (HP Labs),惠普公司MJF 3D打印主创研究员之一

2005-2008,海军科研项目主管,美国明尼苏达大学

主要研究方向:计算材料模拟、理论化学、纳米材料、新能源催化、3D打印、多尺度多场耦合仿真

论文发表和专利:

赵焱是美国惠普公司3D打印技术的主创人员之一,获美国和国际专利25项,在其研究领域的国际权威刊物上发表高水平研究论文230余篇, SCI引用超过56000余次, 其中一篇论文单篇引用超过19000次,H因子为65,10年来的高被引文章(Highly Cited Papers)为13篇。

文章列表:https://publons.com/researcher/1574502/yan-zhao/

所获荣誉:

2014-2015美国汤森路透集团全球高被引科学家

2016-2017年美国科睿唯安集团全球高被引科学家


  

学术兼职:

Energy & Environmental Materials期刊(SCIE收录)副主编。

Interdisciplinary Materials期刊的学术编辑(Academic Editor)

Nanomaterials(IF=5.7)的Editorial Board Member

近期(2018-2022)代表作文章(均为通讯作者)

1.Wu, Y.; Wei, W.; Yu, R.; Xia, L.; Hong, X; Zhu, J.; Li, J.; Lv, F.; Chen, W.; Zhao, Y; Zhou, L; Mai, L. Anchoring Sub-Nanometer Pt Clusters on Crumpled Paper-Like MXene Enables High Hydrogen Evolution Mass Activity, Advanced Functional Materials, 2022, DOI: 10.1002/adfm.202110910.

2.Xia, L.; Wang, Z.; Zhao, Y. Novel Two-Dimensional Metal-Based pi-d Conjugated Nanosheets as Photocatalyst for Nitrogen Reduction Reaction: The First-Principle Investigation. ACS Applied Materials & Interfaces 2022, DOI:10.1021/acsami.1c21789

3.Liao, X.; Lu, R.; Xia, L.; Liu, Q.; Wang, H.; Zhao, K.; Wang, Z.; Zhao, Y. Density Functional Theory for Electrocatalysis. Energy & Environmental Materials 2022, 5 (1), 157.

4.Zhu, J.; Xia, L.; Yang, W.; Yu, R.; Zhang, W.; Luo, W.; Dai, Y.; Wei, W.; Zhou, L.; Zhao, Y. et al. Activating Inert Sites in Cobalt Silicate Hydroxides for Oxygen Evolution through Atomically Doping. Energy & Environmental Materials 2021, DOI:10.1002/eem2.12219.

5.Xu, W.; Liao, X.; Xu, W.; Sun, C.; Zhao, K.; Zhao, Y.; Hu, C. Gradient SEI layer induced by liquid alloy electrolyte additive for high rate lithium metal battery. Nano Energy 2021, 88.

6.Xiao, G.; Lu, R.; Liu, J.; Liao, X.; Wang, Z.; Zhao, Y. Coordination environments tune the activity of oxygen catalysis on single atom catalysts: A computational study. Nano Research 2021, DOI:10.1007/s12274-021-3964-0.

7.Xia, L.; Wang, H.; Zhao, Y. Novel graphitic carbon nitride g-C9N10 as a promising platform to design efficient photocatalysts for dinitrogen reduction to ammonia: the first-principles investigation. Journal of Materials Chemistry A 2021, 9 (36), 20615.

8.Liu, Z.; Huang, T.; Chang, H.; Wang, F.; Wen, J.; Sun, H.; Hossain, M.; Xie, Q.; Zhao, Y.; Wu, Y. Computational Design of Single Mo Atom Anchored Defective Boron Phosphide Monolayer as a High-performance Electrocatalyst for the Nitrogen Reduction Reaction. Energy & Environmental Materials 2021, 4 (2), 255.

9.Liu, Q.; Yu, B.; Liao, X.; Zhao, Y. Facet-Dependent Oxygen Reduction Reaction Activity on the Surfaces of Co3O4. Energy & Environmental Materials 2021, 4 (3), 407.

10.Lin, S.-Y.; Xia, L.-X.; Zhang, L.; Feng, J.-J.; Zhao, Y.; Wang, A.-J. Highly active Fe centered FeM-N-doped carbon (M = Co/Ni/Mn): A general strategy for efficient oxygen conversion in Zn-air battery. Chemical Engineering Journal 2021, 424.

11.Li, Y.; Li, Z.; Zhou, C.; Liao, X.; Liu, X.; Hong, X.; Xu, X.; Zhao, Y.; Mai, L. Gradient sulfur fixing separator with catalytic ability for stable lithium sulfur battery. Chemical Engineering Journal 2021, 422.

12.He, L.; Zhang, W.; Liu, S.; Zhao, Y. Three-dimensional porous N-doped graphitic carbon framework with embedded CoO for photocatalytic CO2 reduction. Applied Catalysis B-Environmental 2021, 298.

13.Cao, L.; Li, H.; Liu, X.; Liu, S.; Zhang, L.; Xu, W.; Yang, H.; Hou, H.; He, S.; Zhao, Y.et al. Nitrogen, sulfur co-doped hierarchical carbon encapsulated in graphene with "sphere-in-layer" interconnection for high-performance supercapacitor. Journal of Colloid and Interface Science 2021, 599, 443.

14.Deng, Y.; Xia, L.; Song, G.-L.; Zhao, Y.; Zhang, Y.; Xu, Y.; Zheng, D. Development of a curcumin-based antifouling and anticorrosion sustainable polybenzoxazine resin composite coating. Composites Part B-Engineering 2021, 225.

15.Zhou, X.; Liao, X.; Pan, X.; Yan, M.; He, L.; Wu, P.; Zhao, Y.;* Luo, W.; Mai, L. Unveiling the role of surface P-O group in P-doped Co3O4 for electrocatalytic oxygen evolution by On-chip micro-device. Nano Energy 2021, 83, 105748. (IF=16.6)

16.Zhao, G.; Xia, L.; Cui, P.; Qian, Y.; Jiang, Y.; Zhao, Y.;* Pan, H.; Dou, S. X.; Sun, W. Atomic-Level Modulation of the Interface Chemistry of Platinum-Nickel Oxide toward Enhanced Hydrogen Electrocatalysis Kinetics. Nano letters 2021, 21, 4845-4852. (IF=11.2)

17.Zhang, C.; Lu, R.; Liu, C.; Yuan, L.; Wang, J.; Zhao, Y.;* Yu, C. High Yield Electrosynthesis of Hydrogen Peroxide from Water Using Electrospun CaSnO3@Carbon Fiber Membrane Catalysts with Abundant Oxygen Vacancy. Adv. Funct. Mater. 2021. (IF=16.8)

18.Wang, F.; Xia, L.; Li, X.; Yang, W.; Zhao, Y.;* Mao, J. Nano-Ferric Oxide Embedded in Graphene Oxide: High-performance Electrocatalyst for Nitrogen Reduction at Ambient Condition. Energy & Environmental Materials 2021, 4, 88-94. (IF=15.122)

19.Wang, F.; Cheong, J. Y.; He, Q.; Duan, G.; He, S.; Zhang, L.; Zhao, Y.;* Kim, I.-D.; Jiang, S. Phosphorus-doped thick carbon electrode for high-energy density and long-life supercapacitors. Chemical Engineering Journal 2021, 414. (IF=10.6)

20.Pei, C.; Yin, Y.; Liao, X.; Xiong, F.; An, Q.; Jin, M.; Zhao, Y.;* Mai, L. Structural properties and electrochemical performance of different polymorphs of Nb2O5 in magnesium-based batteries. Journal of Energy Chemistry 2021, 58, 586-592. (IF=7.2)



专利(Patent)         

Zhao, Y; Hartman, A.; Erickson, K. J.; Zhao, L.; FORMING THREE-DIMENSIONAL (3D) ELECTRONIC PARTS,  Appl. No.: 16/098082PCT NO: PCT/US2016/044214 Filed on July 27, 2016

Zhao, Y; Zhao, L.; Olubummo P; Hartman, A.; Tom, H; THREE-DIMENSIONAL (3D) PRINTING WITH DISCOLORABLE NEAR-INFRARED ABSORBING DYE,  Appl. No.: 16/077753PCT NO: PCT/US17/16679 February 6, 2017

Zhao, Y; Hartman, A.; Zhao, L.; BUILD LAYER TEMPERATURE CONTROL, Appl. No.: 15/770476PCT NO: PCT/US2016/017004 February 8, 2016

Zhao, Y; Zeng, J.; Huang W.; Zhao, L.; Hanson, E. G.; CONTROLLED HEATING FOR 3D PRINTING, 700222043WO01, Application No: 15/567551; PCT No: PCT/US2015/042894, filed on 30 Jul 2015

Zhao, Y.; Ng, H. T.  DYNAMICS SIMULATION, (2014). US Patent No. 13/534,365 (US20140005993) Washington, DC: U.S. Patent and Trademark Office.

Zhao, Y.; Tom H. S.; Ng, H. T.  WHITE PIGMENT DISPERSIONS, 700214050WO01, Application No: 14/908,009; PCT No: PCT/US2013/062239  WO2015047306 A1, filed on 27 Sep 2013

Zhao, Y.; Tom H. S.; Ng, H. T.  CATIONIC LATEX FIXATIVE FOR INK APPLICATIONS,

700215017WO01, Application No: 15/039,816; PCT No: PCT/US2013/073584, WO2015084395 A1, filed on 06 Dec 2013

Tom, H.; Ganapathiappan, S.; Nauka, K.; Zhao, L; Zhao, Y.; Ng, H. T.  THREE-DIMENSIONAL (3D) PRINTING METHOD, Application No: 15/121,730; PCT No: PCT/US2014/036169, WO2015167530 A2, filed on 30 Apr 2014

Nauka, K.; Zhao, L; Ganapathiappan, S.; Zhao, Y.; Tom, H.; Ng, H. T.  GENERATING THREE-DIMENSIONAL OBJECTS, 700215739WO01, Application No: PCT/US2014/036001, WO2015108556 A1 filed on 30 Apr 2014

Ganapathiappan, S.; Tom, H.; Nauka, K.; Zhao, L; Zhao, Y.; Ng, H. T. 3-DIMENSIONAL PRINTING, 700218401WO01, Application No: PCT/US2014/057882, WO2016048380 A1, filed on 26 Sep 2014

Abbott, J. E.; Nauka, K.; Zhao, L; Ganapathiappan, S.; Zhao, Y.; Tom, H.; Ng, H. T.; Govyadinov. A.; Kasperchik, V.;  LIGHTING FOR ADDITIVE MANUFACTURING, 700218833WO01, Application No: PCT/US2014/057651, WO2016048348 A1, filed on 26 Sep 2014

Zhao, L; Ganapathiappan, S.; Zhao, Y.; Nauka, K.; Tom, H.; Ng, H. T.  POLYMERIC POWDER

COMPOSITION FOR THREE-DIMENSIONAL (3D) PRINTING, 700215721WO01, Application No: PCT/US2014/013517, WO2015108544 A1, filed on 29 Jan 2014

Govyadinov. A.; Abbott, J. E.; Kasperchik, V.; Nauka, K.; Zhao, L; Ganapathiappan, S.; Zhao, Y.; Tom, H.; Ng, H. T.  LIGHTING FOR ADDITIVE MANUFACTURING, 700218726WO01, Application No: PCT/US2014/057715, WO2016048357 A1, filed on 26 Sep 2014

Zhao, Y.; De Pena, A. M.; Ng, H. T.   SACRIFICIAL OBJECTS BASED ON A TEMPERATURE THRESHOLD, 700220371WO01, Application No: 15/565850; PCT No: PCT/US2015/033768, filed on 02 Jun 2015

Zhao, L..; Zhao, Y.; Ng, H. T.   COALESCING AGENT CONCENTRATIONS AND CONTONE DENSITIES FOR THREE- DIMENSIONAL OBJECTS, 700220353WO01, Application No: 15/560422; PCT No: PCT/US2015/031085, filed on 15 May 2015


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