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1990年7月生,江苏江阴人,中共党员,工学博士。先后获得德国亥姆霍兹学会、中国国家留学基金委、日本科学技术振兴机构资助,赴欧洲和日本开展学术研究。2018年9月于日本东京大学机械工程系取得博士学位后,转入东京大学化学系任JST-START项目研究员。2019年3月入选东南大学“至善青年学者A类”支持计划,2019年9月进入东南大学能源与环境学院环境科学与工程系工作,任副研究员。入选江苏省双创计划—“双创博士”(2020),担任SCI期刊Journal of Advanced Dielectrics(《先进电介质学报》)、cMat(《铜新材》)等首届青年编委。近年来,在能源、环境、材料以及GF等交叉学科领域的SCI期刊发表论文60余篇,出版专著章节1章,累计被引用>5500次(h-index: 33;Scopus数据),其中ESI热点(前1‰)、高被引(前1%)论文3篇,单篇最高他引>1700次,获Nano-Micro Letters期刊2023、2024年度ESI Top Article Award等荣誉。
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本科生课程:形势与政策、环境保护与可持续发展、建筑设备工程(土木工程学院)
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[14] 国家自然科学基金—青年基金,2022.01-2024.12,30万元(批准号:52101213),主持[13] 中国航空工业集团—航空科学基金,2023.03-2025.02(批准号:2022Z056069001),主持[12] 江苏省基础研究计划(自然科学基金)青年基金,2021.07-2024.06,20万元(批准号:BK20210261),主持[11] GF科技工业核动力技术创新中心基金,2023.12-2025.11(批准号:HDLCXZX-2023-HD-011),主持[10] 强电磁技术全国重点实验室开放课题,2024.06-2025.06(批准号:AET-2024KF012),主持[9] 冲击环境材料技术GF科技全国重点实验室基金,2023.08-2025.07(批准号:6142902230104),联合主持[8] 科技部中国-巴基斯坦重大基础设施智慧防灾“一带一路”联合实验室开放课题,2024.08-2026.07(2024CPBRJL-03),主持[7] 国家重点研发计划项目,2023.12-2028.11(批准号:2023YFA1508102),子课题主持[6] 江苏省“碳达峰·碳中和”科技创新专项资金-农业农村领域重大关键技术攻关项目,2022.07-2026.06(BE2022426),课题主持[5] 江苏省双创计划—“双创博士”项目,15万元,主持[4] 企业横向课题—细菌微生物检测技术开发,2021.03-2023.04,40万元,主持[3] 南京市留学人员科技创新项目择优资助,3万元,主持[2] 东南大学至善青年学者(A类)支持计划,2020.01-2022.12,20万元,主持[1] 东南大学新进教师人才引进启动经费,2019.10-2020.09,20万元,主持[1] 东南大学研究生全英文专业建设项目-《Waste and Biomass Valorization》课程建设,2022.05-2023.06,5万元,联合主持[5] 江苏省基础研究计划(自然科学基金)面上基金,2021.07-2024.06,10万元(批准号:BK20211047),参与(第1参与人)[4] 日本文部科学省国立科学技術振興機構大学発新産業創出项目——Si負極と有機正極からなる軽量高エネルギー二次電池の開発(基于Si负极与有机正极的轻型高能二次电池的开发),2017.04-2020.03,3900万日元/年,参与[3] 国家重点基础研究发展计划(科技部973计划)子课题——半导体纳米材料微结构与光电过程表征及功能设计,2013.01-2017.12,600万元,参与[2] 国家自然科学基金面上项目——针对磁性复合结构的透射电镜表征新技术与磁畴三维立体结构的高分辨研究,2013.01-2016.12,90万元,参与[1] 上海市经济和信息化委员会项目——上海市重要纳米功能材料的产业化瓶颈问题及对策,2013.01-2014.12,10万元,参与(第1参与人)
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Selected journal publications:[36] Y. Chen, Q. Cao*, et al, Trace detection of benzene, toluene and xylene (BTX) by chemiresistive metal oxide-based gas sensors: Recent advances in heterojunction materials design, Chin. Chem. Lett., 2025.[35] 柏吉兴, 曹祺*, et al, 锆基复合高温吸波材料的研究进展, 航空科学技术, 2024, vol. 35 (9), 1−18.[34] Q. Cao, H. Zhang*, et al, Mild formation of Ni(OH)2 dense nanosheets array for ultra-efficient electrocatalytic hydrogen evolution, Int. J. Hydrogen Energ., 2024, vol. 77, 15−22.[33] Y. Pan, Q. Cao*, et al, (111) Facet-dominant peracetic acid activation by octahedral CoO anchored hollow carbon microspheres for tetracycline degradation, Chem. Eng. J., 2024, vol. 493, 152446.[32] Y. Pan, Q. Cao*, et al, Highly efficient peroxymonosulfate activation by CoFe2O4@attapulgite–biochar composites: Degradation properties and mechanism insights, J. Environ. Chem. Eng., 2024, vol. 12, 112579.[31] B. Song, Q. Cao*, et al, A mini-review regarding the control techniques available for arsenic contamination from flue gas and water, J. Environ. Chem. Eng., 2024, vol. 12, 112249.[30] Q. Liu, Q. Cao*, et al, Upcycling waste plastics into FeNi@CNTs chainmail catalysts for effective degradation of norfloxacin: The synergy between metal core and CNTs shell, Sep. Purif. Technol., 2023, vol. 326, 124735.[29] F. Meng, Q. Cao*, et al, Synergistic enhancement of redox pairs and functional groups for the removal of phenolic organic pollutants by activated PMS using silica-composited biochar: Mechanism and environmental toxicity assessment, Chemosphere, 2023, vol. 337, 139441.[28] H. Wei, Q. Cao*, et al, Metal–Organic Framework (MOF) Derivatives as Promising Chemiresistive Gas Sensing Materials: A Review, Int. J. Environ. Res. Public Health, 2023, vol. 20, 4388.[27] Y. Bian*, C. Zhang, H. Wang, Q. Cao*, Degradable nanofiber for eco-friendly air filtration: Progress and perspectives, Sep. Purif. Technol., 2023, vol. 306, 122642. (* corresponding author) (Impact factor = 9.14)[26] Y. Cao*, J. Zhan, Q. Cao*, F. Si, Techno-economic analysis of cascaded supercritical carbon dioxide combined cycles for exhaust heat recovery of typical gas turbines, Energy Convers. Manag., 2022, vol. 258, 115536. (* corresponding author) (Impact factor = 11.53)[25] Q. Cao*, Q. Li, Z. Pi, J. Zhang, L.-W. Sun, J. Xu, Y. Cao, J. Cheng, Y. Bian, Metal-organic framework derived ball-flower-like porous Co3O4/Fe2O3 heterostructure with enhanced visible-light-driven photocatalytic activity, Nanomaterials, 2022, vol. 12, 904. (* corresponding author) (Impact factor = 5.72)[24] J. Cheng, C. Li, Y. Xiong, H. Zhang, H. Raza, S. Ullah, J. Wu, G. Zheng, Q. Cao*, D. Zhang, Q. Zheng, R. Che, Recent advances in design strategies and multifunctionality of flexible electromagnetic interference shielding materials, Nano-Micro Lett., 2022, vol. 14, 80. (* corresponding author) (ESI热点论文, Cited > 330 times, 获期刊2023、2024年度ESI Top Article Award) (Impact factor = 23.66)[23] Q. Cao, J. Zhang, H. Zhang, J. Xu, R. Che, Dual-surfactant templated hydrothermal synthesis of CoSe2 hierarchical microclews for dielectric microwave absorption, J. Adv. Ceram., 2022, vol. 11, 504−514. (Impact factor = 18.6, Ceramics领域期刊IF排名1/31)[22] Q. Cao, S. Hao, Y. Wu, K. Pei, W. You, R. Che, Interfacial charge redistribution in interconnected network of Ni2P–Co2P boosting electrocatalytic hydrogen evolution in both acidic and alkaline conditions, Chem. Eng. J., 2021, vol. 424, 130444. (Impact factor = 16.74, Cited > 100 times)[21] Q. Cao*, J. Yu, Y. Cao, J.-J. Delaunay, R. Che, Unusual effects of vacuum annealing on large-area Ag3PO4 microcrystalline film photoanode boosting cocatalyst- and scavenger-free water splitting, J. Materiomics, 2021, vol. 7, 929−939. (* corresponding author) (Impact factor = 8.59)[20] J. Yu, Q. Cao*, C. Qiu, L. Chen, J.-J. Delaunay, Modulating Ni/Ce Ratio in NiyCe100-yOx Electrocatalysts for Enhanced Water Oxidation, Nanomaterials, 2021, vol. 11, 437. (* corresponding author) (Impact factor = 5.72)[19] S. Hao, Q. Cao*, L. Yang, R. Che, Morphology-optimized interconnected Ni3S2 nanosheets coupled with Ni(OH)2 nanoparticles for enhanced hydrogen evolution reaction, J. Alloys Compd., 2020, vol. 827, 154163. (* corresponding author) (Impact factor = 6.37)[18] S. Hao†, J. Liu†, Q. Cao†, Y. Zhao, X. Zhao, K. Pei, J. Zhang, G. Chen, R. Che, In-situ electrochemical pretreatment of hierarchical Ni3S2-based electrocatalyst towards promoted hydrogen evolution reaction with low overpotential, J. Colloid Interf. Sci., 2020, vol. 559, 282−290. († co-first author) (Impact factor = 9.97)[17] J. Yu, Q. Cao, Y. Li, X. Long, S. Yang, J. K. Clark, M. Nakabayashi, N. Shibata, J.-J. Delaunay, Defect-rich NiCeOx electrocatalyst with ultrahigh stability and low overpotential for water oxidation, ACS Catal., 2019, vol. 9, 1605−1611. (Impact factor = 13.7)[16] C. Li†, Q. Cao†, F. Wang†, Y. Xiao, Y. Li, J.-J. Delaunay, H. Zhu, Engineering graphene and TMDs based van der Waals heterostructures for photovoltaic and photoelectrochemical solar energy conversion, Chem. Soc. Rev., 2018, vol. 47, 4981−5037. († co-first author) (ESI高被引) (Impact factor = 60.62, Cited > 410 times)[15] Q. Cao, X. Liu, K. Yuan, J. Yu, Q. Liu, J.-J. Delaunay, R. Che, Gold nanoparticles decorated Ag(Cl,Br) micro-necklaces for efficient and stable SERS detection and visible-light photocatalytic degradation of Sudan I, Appl. Catal. B – Environ., 2017, vol. 201, 607−616. (Impact factor = 24.32)[14] Q. Cao, J. Yu, K. Yuan, M. Zhong, J.-J. Delaunay, Facile and large-area preparation of porous Ag3PO4 photoanodes for enhanced photoelectrochemical water oxidation, ACS Appl. Mater. Interfaces, 2017, vol. 9, 19507−19512. (Impact factor = 10.38)[13] Q. Cao, K. Yuan, J. Yu, J.-J. Delaunay, R. Che, Ultrafast self-assembly of silver nanostructures on carbon-coated copper grids for surface-enhanced Raman scattering detection of trace melamine, J. Colloid Interf. Sci., 2017, vol. 490, 23−28. (Impact factor = 9.97)[12] K. Yuan†, Q. Cao†, H.-L. Lu, M. Zhong, X. Zheng, H.-Y. Chen, T. Wang, J.-J. Delaunay, W. Luo, L. Zhang, Y.-Y. Zhang, Y. Deng, S.-J. Ding, D. W. Zhang, Oxygen-deficient WO3−x@TiO2−x core-shell nanosheets for efficient photoelectrochemical oxidation of neutral water solutions, J. Mater. Chem. A, 2017, vol. 5, 14697−14706. († co-first author) (Impact factor = 14.51)[11] K. Yuan, Q. Cao, X. Li, H.-Y. Chen, Y. Deng, Y.-Y. Wang, W. Luo, H.-L. Lu, D. W. Zhang, Synthesis of WO3@ZnWO4@ZnO-ZnO hierarchical nanocactus arrays for efficient photoelectrochemical water splitting, Nano Energy, 2017, vol. 41, 543−551. (Impact factor = 19.07)[10] Y.-F. Cheng, Q. Cao, J. Zhang, T. Wu, R. Che, Efficient photodegradation of dye pollutants usinga novel plasmonic AgCl microrods array and photo-optimized surface-enhanced Raman scattering, Appl. Catal. B – Environ., 2017, vol. 217, 37−47. (Impact factor = 24.32)[9] Q. Liu†, Q. Cao†, H. Bi, C. Liang, K. Yuan, W. She, Y. Yang, R. Che, CoNi@SiO2@TiO2 and CoNi@Air@TiO2 microspheres with strong wideband microwave absorption, Adv. Mater., 2016, vol. 28, 480−496. († co-first author) (ESI高被引) (Impact factor = 32.09, Cited > 1750 times)[8] Q. Cao, R. Che, N. Chen, Scalable synthesis of Cu2S double-superlattice nanoparticle systems with enhanced UV/visible-light-driven photocatalytic activity, Appl. Catal. B – Environ., 2015, vol. 162, 187−195. (Impact factor = 24.32)[7] Q. Cao, Y.-F. Cheng, H. Bi, X. Zhao, K. Yuan, Q. Liu, Q. Li, M. Wang, R. Che, Crystal defect-mediated band-gap engineering: A new strategy for tuning optical properties of Ag2Se quantum dots toward enhanced hydrogen-evolution performance, J. Mater. Chem. A, 2015, vol. 3, 20051−20055. (2015 JMCA Hot Paper) (Impact factor = 14.51)[6] Q. Cao, K. Yuan, Q. Liu, C. Liang, X. Wang, Y.-F. Cheng, Q. Li, M. Wang, R. Che, Porous Au−Ag alloy particles inlaid AgCl membranes as versatile plasmonic catalytic interfaces with simultaneous, in-situ SERS monitoring, ACS Appl. Mater. Interfaces, 2015, vol. 7, 18491−18500. (Impact factor = 10.38)[5] Q. Liu†, Q. Cao†, X. Zhao, H. Bi, C. Wang, D. S. Wu, R. Che, Insights into size-dominant magnetic microwave absorption properties of CoNi microflowers via off-axis electron holography, ACS Appl. Mater. Interfaces, 2015, vol. 7, 4233−4240. († co-first author) (Impact factor = 10.38, Cited > 200 times)[4] Q. Cao, R. Che, Tailoring Au−Ag−S composite microstructures in one-pot for both SERS detection and photocatalytic degradation of plasticizers DEHA and DEHP, ACS Appl. Mater. Interfaces, 2014, vol. 6, 7020−7027. (Impact factor = 10.38)[3] Q. Cao, R. Che, N. Chen, Facile and rapid growth of Ag2S microrod arrays as efficient substrates for both SERS detection and photocatalytic degradation of organic dyes, Chem. Commun., 2014, vol. 50, 4931−4933. (Impact factor = 6.07)[2] Q. Cao, R. Che, Z. Liu, Ordered mesoporous CoFe2O4 nanoparticles: Molten-salt-assisted rapid nanocasting synthesis and the effects of calcining heating rate, New J. Chem., 2014, vol. 38, 3193−3198. (Impact factor = 3.93)[1] Q. Cao, R. Che, Synthesis of near-infrared fluorescent, elongated ring-like Ag2Se colloidal nanoassemblies, RSC Adv., 2014, vol. 4, 16641−16646. (Impact factor = 4.04) Chapters:[1] K. Zheng, Y. Gao, X. Bai, R. Che, Z. Zhang, X. Han, Y. Bando, S. Yang, E. Wang, Q. Cao, In Situ TEM: Theory and Applications, Chapter 7 in book “Progress in Nanoscale Characterization and Manipulation”, Page 381−477, ©Springer Nature Singapore Pte Ltd., October 2018.
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| [3] 张会岩;余加俊;曹祺;肖睿,一种用于生物质催化热解制备芳烃的催化剂超声改性方法,发明专利,已公开:202210782282.X[2] 张会岩;余加俊;曹祺;肖睿,一种生物质原位渗碳碳化钼催化剂的制备方法及其应用,发明专利,已公开:202210846671.4[1] 张会岩;苏银海;彭勃;储升;陶雨洁;曹祺;肖睿,一种耦合新能源发电的生物质梯级热解储能方法及装置,发明专利,已授权:ZL 2022 1 0584155.9 |
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评阅AFM、NML、ACB、CEJ等期刊论文、博士/硕士学位论文累计300余篇。[8] 2020.12 入选壳牌(中国)有限公司传感器外部专家[7] 2020.12 通过注册“高级环境监测工程师”资格考试[6] 2020.09 入选江苏省双创计划—“双创博士”[5] 2019.03 入选东南大学“至善青年学者A类”支持计划[4] 2015.09 亥姆霍兹德累斯顿罗森道夫研究中心夏季学生项目“最佳口头报告”奖[3] 2015.05 上海市优秀毕业生[2] 2014.12 复旦大学优秀学生标兵(全校共10人获奖)[1] 2014.11 国家奖学金
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博士生:柏吉兴:Marie Violette(麦瑞):Faisal Ashraf(费索):Emmanuel Sarkodie Apraku(安木):硕士生:郝爽(联合指导):Ni3S2基HER电催化剂, 2020毕业, 发表SCI论文3篇洪儒(联合指导):废塑料升级衍生的ORR/OER双功能电催化剂, 2024毕业, 发表SCI论文2篇魏惠婕:木质素衍生酚催化加氢脱氧, 2024毕业, 发表SCI论文2篇潘彦君:微波强化高级氧化降解抗生素, 2025毕业, 发表SCI论文4篇干钰霄(联合指导):高级氧化降解污染物, 2025毕业沈渝程(联合指导):废塑料升级衍生的HER电催化剂, 2025毕业, 发表SCI论文3篇岳圣豪:杨森:科技竞赛:2021 指导徐钧洲、王东骁、陈奕丹等人获“节能减排”社会实践与科技竞赛省赛一等奖、国赛三等奖;指导SRTP国创项目1项(结题良好)、校级重大1项(结题优秀)、校级重点1项2022 指导SRTP国创项目1项(结题良好)、校级项目1项(结题良好)2023 指导黄鑫、任天宏、黄智强、潘彦君等人获“节能减排”社会实践与科技竞赛省赛一等奖、国赛一等奖;“互联网+”校赛银奖;第八届江苏省大学生颗粒科技创新大赛一等奖、获“优秀指导教师”奖2024 指导SRTP校级重大1项(结题优秀)、校级重点1项;获“节能减排”社会实践与科技竞赛省赛三等奖、国赛一等奖;第九届江苏省大学生颗粒科技创新大赛一等奖本科毕设:2021 谭旭东(南大环境规划设计院)、2022 潘彦君(东南大学)、2022 江健(东-蒙苏州联合研究生院)2023 徐钧洲(上海交大推免)、2023 陈奕丹(复旦大学推免)、2024 高向(东南大学推免)
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