个人信息Personal Information
教授
博士生导师
硕士生导师
性别:男
出生日期:1977-10-20
毕业院校:开云平台首页
学位:博士
所在单位:化工学院
学科:工业催化. 应用化学. 能源化工
办公地点:西部校区 化工实验楼B227
联系方式:办公电话(Tel):0411-84986354 手机(Cell Phone):13624981876
电子邮箱:zkzhao@dlut.edu.cn
个人简介Personal Profile
赵忠奎,教授、博士生导师,教育部新世纪优秀人才,开云平台首页 工业催化系“先进催化材料”课题组负责人。博士论文入选2007年全国优秀博士学位论文提名论文。2005-2007,美国俄亥俄州立大学博士后,2008年,创立“先进催化材料”课题组。兼任辽宁省化工学会生物质能源与材料专业委员会 副主任委员、全国材料新技术发展研究会常务理事,河北科技大学客座教授,瑞士自然科学基金项目 (Swiss National Science Foundation)和 新加坡科学技术局 (AME IRG & YIRG Grant)项目 通讯评审 国际专家,国家自然科学基金项目评审专家,教育部学位与研究生教育发展中心 博士、硕士学位论文通讯评审专家(答辩前论文、抽检论文及优秀论文评审)、教育部高等学校开云体育nba 发展中心 相关评审,以及其他诸多评审平台的论文、人才等评审专家。担任Science Letter Journal、精细石油化工、山东化工 期刊编委,以及顶级期刊Science和Angew. Chem. Int. Ed.、J. Am. Chem. Soc.、Nat. Commun.、Adv. Mater.、Chem. Soc. Rev.、 Adv. Energy Mater.、Energy Environ. Sci.、ACS Nano、Adv. Funct. Mater.、ACS Catal.、J. Catal.、AIChE J.、Chem. Mater.、Green Chem.、Chem. Commun.、Appl. Catal. B/A、J. Mater. Chem. A等40余重要国际期刊和催化学报等一些国内期刊审稿人。主持国家自然科学基金项目6项,并主持辽宁省基金项目、教育部新世纪优秀人才支持计划项目及一些企业委托项目等。迄今,已在J. Am. Chem. Soc.、Nat. Commun.、CCS Chem.、ACS Catal.、Appl. Catal. B、Chem. Eng. J.、Small、iScience、Chem. Mater.、AIChE J.、J. Catal.、J. Mater. Chem. A、Green Chem.等重要学术期刊发表论文160余篇(单篇平均影响因子6.6以上),他引3700多次。影响因子大于10的论文30余篇。2篇论文入选ESI高被引论文。连续 入选World top 2% scientists 2019-2024 (年度影响力榜单),并于2024年入选全球前2%顶尖科学家终身科学影响力榜单 (由斯坦福大学John P.A.Ioannidis教授团队与Elsevier旗下Mendeley Data发布)。所指导的研究生获得辽宁省优秀学位论文、开云平台首页 优秀学位论文、国家奖学金、优秀博士论文单项奖学金、优秀博士论文特别奖学金、辽宁省优秀毕业生、中科院奖学金、中国石化英才奖学金、优秀研究生等奖项几十项。连续多年获评开云平台首页 优秀研究生指导教师称号。获得2018年度中国产学研合作创新奖,辽宁省自然科学学术成果奖一等奖1项。授权发明专利2项,出版专著1部《高效反应技术与绿色化学》(2012年出版,中国石油与化学工业联合会优秀出版物二等奖),英文专章4章(Springer、Nova出版社)。参编普通高等教育“新工科”系列精品教材《低碳资源催化转化基础》(2024年出版,个人部分8.5万字/总82.5万字)。PI: Researcher ID: J-5669-2015; Scopus Author ID 8702446400; ORCID: 0000-0001-6529-5020。 申请专利9项。
先进催化材料研究组 (Advanced Catalytic Materials Research Group, ACM-RG)
欢迎访问研究组x-mol主页: https://www.x-mol.com/groups/zhao_zhongkui
热烈欢迎对科研具有浓厚兴趣的化学化工不同专业背景的学生加盟“先进催化材料”研究组。
研究生招生专业:
一、博士研究生
招生专业:工业催化、应用化学 (报考时,研究方向任选,这是二级学科招生专业)(备注:每年学校招生政策可能会有变化,有时学校会按一级学科“化学工程与技术”等招生,大家只要选择到我的名字即可,专业、方向都无所谓)。目前,按照“化学工程与技术”一级学科招生,毕业证是“化学工程与技术”专业。
(若有问题请随时邮件联系:zkzhao@dlut.edu.cn)
二、硕士研究生
目前,化工学院研究生招生,按照一级学科招生。
1)学术性硕士, 化学工程与技术 一级学科 (081700),请务必选择下面两个研究方向之一: 07、催化新材料及催化剂工程;08、智能催化及催化新反应。毕业证,和化学工程、化学工艺等专业一样,都按照一级学科“化学工程与技术”授予。
2)专业型硕士,化学工程 一级学科(085602),请务必选择研究方向:04、催化化工。毕业证,按一级学科“化学工程”授予。
若有问题,请随时邮件联系:zkzhao@dlut.edu.cn
下面是以前的招生信息(2023年及以前):
1)学术性 硕士, 招生专业: 工业催化 (081705)(所属一级学科为:0817化学工程与技术)(有问题可以随时邮件联系:zkzhao@dlut.edu.cn)
2)专业型 硕士(专硕),招生专业:085602 化学工程 专业(催化化工 ) (所属一级学科为:0856 材料与化工)。 备注:由于每年学校招生政策可能有变化,专业型硕士 招生专业 有时也可以是 0817化学工程与技术一级学科下的 化学工程(催化化工 方向)。有时候,也称为 催化工程。总之,找到 包含“催化”二字即可。(有问题可以随时邮件联系:zkzhao@dlut.edu.cn)
携起手来、共同进步,共同发展,陪你在科研道路上披荆斩棘、攻克难关,共创美好未来!!!
组训:进取、创新、求实、求是!!!
2008年,创立“先进催化材料”课题组。坚持四个面向,坚持四个面向,开展载能小分子活化转化(CH4、H2O、N2、O2、CO2活化转化)和精细化工绿色制造研究,从源头减碳,从末端消碳,全面助力“碳中和”国家重大战略决策。在应用研究方面,与本系工业应用经验丰富的老师开展紧密合作,围绕分子筛催化、精细化工/大宗化学品绿色制造,开展应用研究,服务国民经济。本课题组兼顾基础研究和应用研究,从而为复合型人才和不同层次人才的培养提供了保障。
先进催化材料课题组(Advanced Catalyic Materials Research Group, ACM-RG)。研究领域:催化新材料的功能分子创制,主要致力于精细化工原料及中间体的绿色制造和新能源转化相关催化新材料的理性设计和可控构筑。主要包括:精细化工原料及中间体的催化清洁合成、低碳分子和生物质模型分子的催化转化、光催化分解水制氢、光催化甲烷定向转化、电催化分解水制氢、电催化氮还原合成氨、电催化氧还原合成双氧水、电催化CO2还原合成高值化学品、光催化精细有机合成、电催化精细有机合成等。
代表性论文:
[1] Ting Zhang,1 Zhe Sun,1 Shiyan Li,2 Baojun Wang,3 Yuefeng Liu,2,* Riguang Zhang,3,* and Zhongkui Zhao1,* Regulating electron configuration of single Cu sites via unsaturated N,O-coordination for selective oxidation of benzene to phenol, Nature Communications, 2022, 13, 6996. DOI: 10.1038/s41467-022-34852-y (IF=17.694)
[2] Ting Zhang,† Di Zhang,† Xinghua Han,‡ Ting Dong,‡ Xinwen Guo,† Chunshan Song,†,‖ Rui Si,*,§ Wei Liu,# Yuefeng Liu,*,# and Zhongkui Zhao*,† Preassembly Strategy To Fabricate Porous Hollow Carbonitride Spheres Inlaid with Single Cu–N3 Sites for Selective Oxidation of Benzene to Phenol. Journal of the American Chemical Society, 2018,140 16936-16940. (IF=16.383)
[3] Ting Zhang,a,b,§ Wantong Zhao,c,§ Shiyan Li,d Wenguang Cui,e Baojun Wang,c Yuefeng Liu,d,* Riguang Zhang,c,* Zhongkui Zhaoa,* Single-atom Co sites with upshifted d-band center efficiently boost transfer hydrogenation for selective imines synthesis, Chemical Engineering Journal, 2024, 484, 149614. xxx-xxxx. DOI: 10.1016/j.cej.2024.149614. (IF=16.744)
[4] Guanchao Wang1§, Chaofan Zhang1§, Wantong Zhao2, Baojun Wang2, Yuefeng Liu3*, Ting Zhang4*, Wenguang Cui5, Riguang Zhang2*, and Zhongkui Zhao1*, Bonding Interaction of Adjacent Pt and Ag Single-Atom Pairs on Carbon Nitride Efficiently Promotes Photocatalytic H2 Production, CCS Chemistry, 2024, 6, 1523-1534. (IF=11.2,化学化工综合类权威期刊,中国化学会旗舰期刊)
[5] Kuo Yang,1,2 Jinzhe Li,2 Changcheng Wei,2 Zhongkui Zhao,*,1 and Zhongmin Liu*,2, Coupling Conversion of CO2 and n‑Butane Over Modified ZSM-5: Incorporation of the Carbon from CO2 into Hydrocarbon Products. ACS Catalysis, 2023, 13, 10405-10417. ttps://doi.org/10.1021/acscatal.3c02158 (IF=13.700)
[6] Xue Zhanga,1, Weiwei Yua,1, Ting Zhanga, Siyuan Hea, Wantong Zhaob, Baojun Wangb, Yuefeng Liu c,* Benxue Zoud, Riguang Zhangb,* and Zhongkui Zhaoa,*, Adjacent diatomic Cu1N3/Mo1S2 entities decorated carbon nitride for markedly enhanced photocatalytic hydrogen generation. Chemical Engineering Journal, 2023, 463, 142470. xxx-xxxx. DOI: 10.1016/j.cej.2023.142470. (IF=16.744)
[7] Guanchao Wang1§, Chaofan Zhang1§, Wantong Zhao2, Baojun Wang2, Yuefeng Liu3*, Ting Zhang4*, Wenguang Cui5, Riguang Zhang2*, and Zhongkui Zhao1*, Bonding Interaction of Adjacent Pt and Ag Single-Atom Pairs on Carbon Nitride Efficiently Promotes Photocatalytic H2 Production, CCS Chemistry, 2024, 6, 1523-1534. (IF=11.2,化学化工综合类权威期刊,中国化学会旗舰期刊)
[8] Guanchao Wang,+,[a] Ying Ma,+,[b] Ting Zhang,+,[a] Wantong Zhao,[c] Yuefeng Liu,[b] Baojun Wang,[c] Riguang Zhang,*,[c] and Zhongkui Zhao*,[a] Partial Sulphidation to Regulate Coordination Structure of Single Nickel Atoms on Graphitic Carbon Nitride for Efficient Solar H2 Evolution, Small, 2022, 18, 2205758. DOI:10.1002/smll.202205758. (IF=15.153)
[9] Mengzhao Liu,a Zhe Sun,a Chaofan Zhang,a Shiyan Li,b Chaozhen He,c Yuefeng Liu,*b and Zhongkui Zhao*a Multi-interfacial engineering of Coil-like NiS-Ni2P/Ni hybrid to efficiently boost electrocatalytic hydrogen generation in alkaline and neutral electrolyte, Journal of Materials Chemistry A, 2022, 10, 13410-13417. DOI: 10.1039/D2TA03021G (IF=14.511)
[10] Ting Zhang,a,1 Zhenyu Xie,a,1 Luozhen Jiang,b,1 Wantong Zhao,c Shuo Cao,d Baojun Wang,c Rui Si,b Riguang Zhang,c,* Yuefeng Liu,d,* and Zhongkui Zhaoa,* Selective transfer hydrogenation coupling of nitroaromatics to azoxy/azo compounds by electron-enriched single Ni-N4 sites on mesoporous N-doped carbon, Chemical Engineering Journal, 2022, 443, 136416. xxx-xxxx. DOI: 10.1016/j.cej.2022.136416 (IF=16.744)
[11] Yu Zhang,§,† Weiwei Yu,§,† Shuo Cao,§,‡,‖ Zhe Sun,§,† Xiaowa Nie,† Yuefeng Liu‡ and Zhongkui Zhao*,†, Photocatalytic Chemoselective Transfer Hydrogenation of Quinolines to Tetrahydroquinolines on Hierarchical NiO/In2O3-CdS Microspheres, ACS Catalysis, 2021, 11, 13408–13415. (IF=13.700)
[12] Mengzhao Liu,‡a Zhe Sun,‡a Shiyan Li,‡b,c Xiaowa Nie,‡a Yuefeng Liu,b Erdong Wang,b and Zhongkui Zhao*a, Hierarchical superhydrophilic/superaerophobic CoMnP/Ni2P nanosheets-based microplates arrays for enhanced overall water splitting, Journal of Materials Chemistry A, 2021, 9, 22129-22139. (IF=14.511)
[13] Qin Zhou+, Guifang Ge+, Zhanglong Guo+, Yuefeng Liu, and Zhongkui Zhao*, Poly(Imidazolium-Methylene)-Assisted Grinding Strategy to Prepare Nanocarbons-Embedded Network Monoliths for Carbocatalysis, ACS Catalysis, 2020, 10, 14604-14614. (IF=13.700)
[14] Weiwei Yu, Ting Zhang, and Zhongkui Zhao*, Garland-like intercalated carbon nitride prepared by an oxalic acid-mediated assembly strategy for highly-efficient visible-light-driven photoredox catalysis, Applied Catalysis B: Environmental, 2020, 278, 119342. DOI: 10.1016/j.apcatb.2020.119342. (IF=24.319)
[15] Guanchao Wang,†,§ Ting Zhang,†,§ Weiwei Yu,†,§ Rui Si,*,‡ Yuefeng Liu,*, # and Zhongkui Zhao*,†, Modulating Location of Single Copper Atoms in Polymeric Carbon Nitride for Enhanced Photoredox Catalysis, ACS Catalysis, 2020, 10(10), 5715-5722 (IF=13.700) (Highlighted by cover)
[16] Weiwei Yu, Xin Shan, and Zhongkui Zhao*, Unique nitrogen-deficient carbon nitride homojunction prepared by a facile inserting-removing strategy as an efficient photocatalyst for visible light-driven hydrogen evolution, Applied Catalysis B: Environmental, 2020, 269, 118778. DOI: 10.1016/j.apcatb.2020.118778 (IF=24.319)
[17] Di Zhang, Yongle Guo, Zhongkui Zhao*, Porous defect-modified graphitic carbon nitride via a facile one-step approach with significantly enhanced photocatalytic hydrogen evolution under visible light irradiation. Applied Catalysis B: Environmental, 2018, 226, 1-9. (IF=24.319) (ESI 高被引用论文)
[18] Zhongkui Zhao,* Yitao Dai, Jinhan Lin and Guiru Wang, Highly-Ordered Mesoporous Carbon Nitride with Ultrahigh Surface Area and Pore Volume as a Superior Dehydrogena-tion Catalyst. Chemistry of Materials, 2014, 26, 3151-3161. (IF=10.508) (ESI 1% 高被引论文)
[19] Zhongkui Zhao* and Yitao Dai, Nanodiamond/carbon nitride hybrid nanoarchitecture as an efficient metal-free catalyst for oxidant- and steam-free dehydrogenation. Journal of Materials Chemistry A, 2014, 2, 13442-13451. (IF=14.511)
[20] Zhongkui Zhao*, Ronghua Jin, Ting Bao, Xiaoli Lin, Guiru Wang, Mesoporous ceria-zirconia supported cobalt oxide catalysts for CO preferential oxidation reaction in excess H2. Applied Catalysis B: Environmental, 2011,110, 154-163. (IF=24.319)
[21] Ting Bao, Zhongkui Zhao*, Yitao Dai, Xiaoli Lin, Ronghua Jin, Guiru Wang, Turghun Muhammad, Supported Co3O4-CeO2 catalysts on modified activated carbon for CO preferential oxidation in H2-rich gases. Applied Catalysis B: Environmental, 2012, 119-120, 62-73. (IF=24.319)
[22] Zhongkui Zhao*, Xiaoli Lin, Ronghua. Jin, Guiru Wang, Turghun Muhammad, MOx (M = Mn, Fe, Ni or Cr) improved supported Co3O4 catalysts on ceria-zirconia nanoparticulate for CO preferential oxidation in H2-rich gases. Applied Catalysis B: Environmental, 2012, 115-116, 53-62. (IF=24.319)
[23] Zhongkui Zhao,* Hongling Yang, Yu Li and Xinwen Guo, Cobalt-modified molybdenum carbide as an efficient catalyst for chemoselective reduction of aromatic nitro compounds. Green Chemistry, 2014, 16, 1274-1281. (IF=11.034)
[24] Zhongkui Zhao,* Yitao Dai, Guifang Ge, Xinwen Guo and Guiru Wang, Facile simultaneous defect producing and O,N-doping of carbon nanotube with unexpected catalytic performance for clean and energy-saving production of styrene. Green Chemistry, 2015, 17, 3723-3727. (IF=11.034) (highlighted as back cover)
[25] Guanchao Wang1§, Ting Zhang1§, Weiwei Yu1§, Zhe Sun1§, Xiaowa Nie1, Rui Si2*, Yuefeng Liu3*, and Zhongkui Zhao1*, Efficient Electronic Modulation of g-C3N4 Photocatalyst by Implanting Single-Atom Ag-N3 for Extremely High Hydrogen Evolution Rate, CCS Chemistry, 2021, 3, 2850-2862. (IF=11.2,化学化工综合类权威期刊,中国化学会旗舰期刊)
[26] Weizuo Li, Zhongkui Zhao*, Guiru Wang, Modulating Morphology and Textural Properties of ZrO2 for Supported Ni Catalysts towards Dry Reforming of Methane. AIChE Journal, 2017, 63 (7), 2900-2915. (IF=4.167). (Top 1 Journal in Chem Eng)
[27] Zhongkui Zhao*, Yitao Dai, Guifang Ge, and Guiru Wang, Efficient Tuning of Microstructure and Surface Chemistry of Nanocarbon Catalysts for Ethylbenzene Direct Dehydrogenation. AIChE Journal, 2015,61 :2543-2561. (IF=4.167) (Top 1 Journal in Chem Eng)
[28] Zhongkui Zhao*, J. H. Lin, G. Wang, T. Muhammad. Novel Co-Mn-O Nanosheet Catalyst for CO Preferential Oxidation toward Hydrogen Purification. AIChE Journal, 2015, 61, 239-252. (IF=4.167) (Top 1 Journal in Chem. Eng.)
[29] Xiaojing Wei§,†, Guifang Ge§,†, Weiwei Yu§,†, Hongchen Guo†, Xinwen Guo†, Chunshan Song*,‡,‖, and Zhongkui Zhao*,† Plastering Sponge with Nanocarbon-Containing Slurry to Construct Mechanically Robust Macroporous Monolithic Catalysts for Direct Dehydrogenation of Ethylbenzene, ACS Applied Materials & Interfaces,2022, 14(17) :19315-19323. (IF=10.383)
[30] Guifang Ge, Xinwen Guo, Chunshan Song, and Zhongkui Zhao*. Reconstructing Supramolecular Aggregates to Nitrogen Deficient g-C3N4 Bunchy Tubes with Enhanced Photocatalysis for H2 Production. ACS Applied Materials & Interfaces, 2018, 10 :18746-18753. (IF=10.383)