![]() 黄虎彪职务:
单位:东南大学
电话:
出生年月:1987-06-21
邮箱:hubiaohuang@gmail.com
学历:博士
地址:
职称:教授
个人简介 黄虎彪博士,现任东南大学特聘教授,博士生导师。其研究方向主要聚焦于以下三个方向:(1)集成电路关键材料设计和技术创新;(2)新型光刻胶材料; (3)创新型拓扑超分子材料。相关工作以第一或者通讯作者发表在Nature Nanotechol.、 Nature Commun.、J. Am. Chem. Soc.等学术期刊,他引超过2900次,其相关成果被美国化学会旗舰期刊JACS Spotlights和Membrane Technology杂志作为Feature/Research Trends报道。授权中国发明专利1项,申请日本发明专利/PCT国际专利3项,部分和日本旭硝子(ASAHI)和花王(KAO)集团开展产学研合作。主持/共同主持日本学术振兴会科研费Grant-in-Aida for JSPS Fellows项目1项 (2015–2018),东京大学-清华大学国际合作项目1项(2018–2020),日本理化学研究所国际合作基金 (2022–2027),日本学术振兴会特別推進研究(2023–2028)。获3M Innovation Award、Riken CEMS Award、CEMS Rising Award、国家优秀自费生留学生奖、BASF Rising Star Award等诸多奖项。
教育经历
2011年08月–2014年03月 浙江大学材料科学与工程系 硕士 导师:彭新生教授 2014年10月––2017年09月 東京大学 工学院 博士 导师:Takuzo Aida教授 (美国科学与艺术院与美国工程院两院院士、东京大学杰出教授) 工作经历 2024年09月––至今 2022年07月––2024年07月 东京大学工学系 化学生命系 助理教授(双聘) 2019年12月––2024年07月 日本理化学研究所(RIKEN) 研究员(永久职位) 2018年04月––2019年12月东京大学工学系 特任研究员 2017年10月––2018年03月 讲授课程 教学研究 出版物 Google学术:https://scholar.google.com/citations?user=b9c1QyUAAAAJ&hl=ja (3篇ESI高被引,单篇引用最高850次,累计引用次数3000次) 1. Hubiao Huang, Gangfeng Chen, Manabu Hoshino, Kiyohiro Adachi, Daisuke Hashizume, Hiroshi Sato, Zhenghong Chen, Shaodong Zhang, Kang Wang, Xianqing Lin, Yong Sheng Zhao and Takuzo Aida* To be Announced. J. Am. Chem. Soc. 2024, under revision. 2. HubiaoHuang, Hiroshi Sato, Kang Wang, Xianqing Lin, Tongjin Zhang, Yong Sheng Zhao, Stephen Z. D. Cheng and Takuzo Aida* Accumulated Lattice Strain as an Internal Trigger for Spontaneous Pathway Selection. J. Am. Chem. Soc. 2021, 143, 15319–15325. (引用次数:7) 3. HubiaoHuang* and Takuzo Aida* Towards Molecular Motors in Unison. Nature Nanotech. 2019, 14, 407. (引用次数:24) 4. HubiaoHuang, Hiroshi Sato* and Takuzo Aida* Crystalline Nanopores with Pendant Azobenzene Groups: Steric or Polar Effects on Gas Adsorption and Diffusion. J. Am. Chem. Soc. 2017, 139, 8784–8787. (引用次数:90) 5. HubiaoHuang, Zhigong Song, Li Shi, Yiyin Mao, Yulong Ying, Luwei Sun, Zhiping Xu and Xinsheng Peng* Ultrafast Viscous Water Flow through Nanostrand-Channeled Graphene Oxide Membranes. Nature Commun. 2013, 4, 2979. (引用次数:845) (Highlighted by Membrane Technology and Reported by Membrane Industry Association) 6. HubiaoHuang, Yiyin Mao, Yulong Ying, Yu Liu, Luwei Sun and Xinsheng Peng* Salt Concentration, pH and Pressure Controlled Separation of Small Molecules through Lamellar Graphene Oxide Membranes. Chem. Commun. 2013, 49, 5963–5965. (引用次数:430) 7. HubiaoHuang, Yulong Ying and Xinsheng Peng*. Graphene Oxide Nanosheet: An Emerging Star Material for Novel Separation Membranes. J. Mater. Chem. A 2014, 2, 13772–13782. (引用次数:327) 8. Yi Guo#, Hubiao Huang#, Zhuoyi Li, Xiaobin Wang, Peipei Li, Zheng Deng, Xinsheng Peng*. Sulfonated Sub-Nanochannels in a Robust MOF Membrane: Harvesting Salinity Gradient Power. ACS Appl. Mater. Interfaces 2019, 11, 38, 35496–35500. (#共同一作, 引用次数:24) 9. Luwei Sun, HubiaoHuang, Xinsheng Peng*. Ultrafast Molecule Separation through Layered WS2 Nanosheet Membranes. ACS Nano 2014,8, 6304–6311. (Highlighted by Nanowerk, 引用次数:247) 10. Di Li, Hao Cheng, Xixun Hao, Guoping Yu, Chuntian Qiu, Yanjun Xiao, Hubiao Huang, Yingying Lu, Bing Zhang. Wood-Derived Freestanding Carbon-Based Electrode with Hierarchical Structure for Industrial-Level Hydrogen Production. Adv. Mater. 2023, DOI: https://doi.org/10.1002/adma.202304917. 11. Vonika Ka-Man Au, Kazuki Nakayashiki, Hubiao Huang, Shun Suginome, Hiroshi Sato*, Takuzo Aida* Stepwise Expansion of Layered Metal–Organic Frameworks for Nonstochastic Exfoliation into Porous Nanosheets. J. Am. Chem. Soc. 2019, 141, 53–57. (引用次数:60) 12. Chengcheng Zhang, Yingkui Yan, Hubiao Huang, Xinsheng Peng, Hui Song, Jinhua Ye, Li Shi Efficient and Selective Photocatalytic Oxidation of CH4 over Fe Single-Atom-Incorporated MOFs under Visible Light. ACS Catal. 2023, 13, 15351. 13. Yingluo Zhao, Hiroko Kawano, Hiroshi Yamagishi, Saya Otake, Yoshimitsu Itoh, Hubiao Huang, E. W. Meijer, Takuzo Aida. Pathway Complexity in Nanotubular Supramolecular Polymerization: Metal–Organic Nanotubes with a Planar-Chiral Monomer. J. Am. Chem. Soc. 2023, 145, 13920–13928. (引用次数:3) 14. Luwei Sun, HubiaoHuang, Xinsheng Peng* Laminar MoS2 Membrane for Molecule Separation. Chem. Commun. 2013, 49, 10718–10720. (引用次数:260) 15. Yiyin Mao, Li Shi, HubiaoHuang, Wei Cao, Junwei Li, Luwei Sun, Xianda Jin and Xinsheng Peng* Room Temperature Synthesis of Free-Standing HKUST-1 Membranes from Copper Hydroxide Nanostrands for Gas Separation. Chem. Commun. 2013,49, 5666–5668 16. Li Shi, Qing Yu, Yiyin Mao, HubiaoHuang, Hongwen Huang, Zhizhen Ye and Xinsheng Peng* High Catalytic Performance of Gold Nanoparticle-Gelatin Mesoporous Composite Thin Films. J. Mater. Chem. 2012,22, 21117–21124. (引用次数:16) 17. Yiyin Mao, HubiaoHuang, Yu Liu, Li Shi, Wei Cao, Junwei Li, Luwei Sun and Xinsheng Peng* Hetero-Metal Hydroxide Nanostrand Assisted Synthesis of MIL-110 Nanorod Arrays on Porous Substrate. CrystEngComm. 2013, 15, 5591–5593. (引用次数:7) 18. Li Shi, HubiaoHuang, Luwei Sun, Yanping Lu, Binyang Du, Yiyin Mao, Junwei Li, Zhizhen Ye and Xinsheng Peng*. [Fe(CN)6]4− Decorated Mesoporous Gelatin Thin Films for Colorimetric Detection and as Sorbents of Heavy Metal Ions. Dalton Trans. 2013, 42, 13265–13272. (引用次数:8) 19. Yiyin Mao, Li Shi, Hubiao Huang, Qing Yu, Zhizhen Ye and Xinsheng Peng* Mesoporous Separation Membranes of {[Cu(BTC–H2)2·(H2O)2]·3H2O} Nanobelts Synthesized by Ultrasonication at Room Temperature. CrystEngComm 2013,15, 265–270. (引用次数:34) 20. Li Shi, Qing Yu, Hubiao Huang, Yiyin Mao, Jiahuan Lei, Zhizhen Ye and Xinsheng Peng* Superior Separation Performance of Ultrathin Gelatin Films. J. Mater. Chem. A 2013,1, 1899–1906. (引用次数:18) 21. Li Shi, Ting Yu, Hubiao Huang, Xiaodong Pi* and Xinsheng Peng* Facile Synthesis of Highly Fluorescent Gelatin/Si Nanocrystals Composite Thin Film for Optical Detection of Amines from Water. J. Mater Chem. C 2013,49, 5963–5965. (引用次数:4) 22. Yu Liu, Wei Wang, Hubiao Huang, Lin Gu, Yewu Wang and Xinsheng Peng* The Highly Enhanced Performance of Lamellar WS2 Nanosheet Electrodes upon Intercalation of Single-Walled Carbon Nanotubes for Supercapacitors and Lithium Ions batteries. Chem. Commun. 2014, 50, 4485–4488. (引用次数:149) 研究领域或方向 国家“十四五”规划和2035年远景目标明确提出,“集成电路先进工艺和关键材料”是科技发展的重点攻关领域。然而,美日等发达国家长期主导着先进光刻胶、封装材料和介电材料等关键技术的基础研究与生产标准,极大限制了我国半导体产业的自主创新与发展。 实验室将紧扣国家重大需求,充分发挥实验室在晶体工程、新型超材料及跨学科研究方面的知识和经验积累,突破现有集成电路关键材料设计的传统框架,重点探讨集成电路工艺与关键材料的共性问题与技术挑战,聚焦(1)先进光刻胶、(2)先进封装材料 和(3)先进介电材料的创新与技术突破等前沿课题,以应对半导体先进制程中对高性能材料的迫切需求,推动我国集成电路产业的自主创新与快速发展,助力中国在全球半导体产业链中的战略提升。 研究项目 研究成果 Google学术:https://scholar.google.com/citations?user=b9c1QyUAAAAJ&hl=ja (3篇ESI高被引,单篇引用最高850次,累计引用次数3000次) 1. Hubiao Huang, Gangfeng Chen, Manabu Hoshino, Kiyohiro Adachi, Daisuke Hashizume, Hiroshi Sato, Zhenghong Chen, Shaodong Zhang, Kang Wang, Xianqing Lin, Yong Sheng Zhao and Takuzo Aida* To be Announced. J. Am. Chem. Soc. 2024, under revision. 2. HubiaoHuang, Hiroshi Sato, Kang Wang, Xianqing Lin, Tongjin Zhang, Yong Sheng Zhao, Stephen Z. D. Cheng and Takuzo Aida* Accumulated Lattice Strain as an Internal Trigger for Spontaneous Pathway Selection. J. Am. Chem. Soc. 2021, 143, 15319–15325. (引用次数:7) 3. HubiaoHuang* and Takuzo Aida* Towards Molecular Motors in Unison. Nature Nanotech. 2019, 14, 407. (引用次数:24) 4. HubiaoHuang, Hiroshi Sato* and Takuzo Aida* Crystalline Nanopores with Pendant Azobenzene Groups: Steric or Polar Effects on Gas Adsorption and Diffusion. J. Am. Chem. Soc. 2017, 139, 8784–8787. (引用次数:90) 5. HubiaoHuang, Zhigong Song, Li Shi, Yiyin Mao, Yulong Ying, Luwei Sun, Zhiping Xu and Xinsheng Peng* Ultrafast Viscous Water Flow through Nanostrand-Channeled Graphene Oxide Membranes. Nature Commun. 2013, 4, 2979. (引用次数:845) (Highlighted by Membrane Technology and Reported by Membrane Industry Association) 6. HubiaoHuang, Yiyin Mao, Yulong Ying, Yu Liu, Luwei Sun and Xinsheng Peng* Salt Concentration, pH and Pressure Controlled Separation of Small Molecules through Lamellar Graphene Oxide Membranes. Chem. Commun. 2013, 49, 5963–5965. (引用次数:430) 7. HubiaoHuang, Yulong Ying and Xinsheng Peng*. Graphene Oxide Nanosheet: An Emerging Star Material for Novel Separation Membranes. J. Mater. Chem. A 2014, 2, 13772–13782. (引用次数:327) 8. Yi Guo#, Hubiao Huang#, Zhuoyi Li, Xiaobin Wang, Peipei Li, Zheng Deng, Xinsheng Peng*. Sulfonated Sub-Nanochannels in a Robust MOF Membrane: Harvesting Salinity Gradient Power. ACS Appl. Mater. Interfaces 2019, 11, 38, 35496–35500. (#共同一作, 引用次数:24) 9. Luwei Sun, HubiaoHuang, Xinsheng Peng*. Ultrafast Molecule Separation through Layered WS2 Nanosheet Membranes. ACS Nano 2014,8, 6304–6311. (Highlighted by Nanowerk, 引用次数:247) 10. Di Li, Hao Cheng, Xixun Hao, Guoping Yu, Chuntian Qiu, Yanjun Xiao, Hubiao Huang, Yingying Lu, Bing Zhang. Wood-Derived Freestanding Carbon-Based Electrode with Hierarchical Structure for Industrial-Level Hydrogen Production. Adv. Mater. 2023, DOI: https://doi.org/10.1002/adma.202304917. 11. Vonika Ka-Man Au, Kazuki Nakayashiki, Hubiao Huang, Shun Suginome, Hiroshi Sato*, Takuzo Aida* Stepwise Expansion of Layered Metal–Organic Frameworks for Nonstochastic Exfoliation into Porous Nanosheets. J. Am. Chem. Soc. 2019, 141, 53–57. (引用次数:60) 12. Chengcheng Zhang, Yingkui Yan, Hubiao Huang, Xinsheng Peng, Hui Song, Jinhua Ye, Li Shi Efficient and Selective Photocatalytic Oxidation of CH4 over Fe Single-Atom-Incorporated MOFs under Visible Light. ACS Catal. 2023, 13, 15351. 13. Yingluo Zhao, Hiroko Kawano, Hiroshi Yamagishi, Saya Otake, Yoshimitsu Itoh, Hubiao Huang, E. W. Meijer, Takuzo Aida. Pathway Complexity in Nanotubular Supramolecular Polymerization: Metal–Organic Nanotubes with a Planar-Chiral Monomer. J. Am. Chem. Soc. 2023, 145, 13920–13928. (引用次数:3) 14. Luwei Sun, HubiaoHuang, Xinsheng Peng* Laminar MoS2 Membrane for Molecule Separation. Chem. Commun. 2013, 49, 10718–10720. (引用次数:260) 15. Yiyin Mao, Li Shi, HubiaoHuang, Wei Cao, Junwei Li, Luwei Sun, Xianda Jin and Xinsheng Peng* Room Temperature Synthesis of Free-Standing HKUST-1 Membranes from Copper Hydroxide Nanostrands for Gas Separation. Chem. Commun. 2013,49, 5666–5668 16. Li Shi, Qing Yu, Yiyin Mao, HubiaoHuang, Hongwen Huang, Zhizhen Ye and Xinsheng Peng* High Catalytic Performance of Gold Nanoparticle-Gelatin Mesoporous Composite Thin Films. J. Mater. Chem. 2012,22, 21117–21124. (引用次数:16) 17. Yiyin Mao, HubiaoHuang, Yu Liu, Li Shi, Wei Cao, Junwei Li, Luwei Sun and Xinsheng Peng* Hetero-Metal Hydroxide Nanostrand Assisted Synthesis of MIL-110 Nanorod Arrays on Porous Substrate. CrystEngComm. 2013, 15, 5591–5593. (引用次数:7) 18. Li Shi, HubiaoHuang, Luwei Sun, Yanping Lu, Binyang Du, Yiyin Mao, Junwei Li, Zhizhen Ye and Xinsheng Peng*. [Fe(CN)6]4− Decorated Mesoporous Gelatin Thin Films for Colorimetric Detection and as Sorbents of Heavy Metal Ions. Dalton Trans. 2013, 42, 13265–13272. (引用次数:8) 19. Yiyin Mao, Li Shi, Hubiao Huang, Qing Yu, Zhizhen Ye and Xinsheng Peng* Mesoporous Separation Membranes of {[Cu(BTC–H2)2·(H2O)2]·3H2O} Nanobelts Synthesized by Ultrasonication at Room Temperature. CrystEngComm 2013,15, 265–270. (引用次数:34) 20. Li Shi, Qing Yu, Hubiao Huang, Yiyin Mao, Jiahuan Lei, Zhizhen Ye and Xinsheng Peng* Superior Separation Performance of Ultrathin Gelatin Films. J. Mater. Chem. A 2013,1, 1899–1906. (引用次数:18) 21. Li Shi, Ting Yu, Hubiao Huang, Xiaodong Pi* and Xinsheng Peng* Facile Synthesis of Highly Fluorescent Gelatin/Si Nanocrystals Composite Thin Film for Optical Detection of Amines from Water. J. Mater Chem. C 2013,49, 5963–5965. (引用次数:4) 22. Yu Liu, Wei Wang, Hubiao Huang, Lin Gu, Yewu Wang and Xinsheng Peng* The Highly Enhanced Performance of Lamellar WS2 Nanosheet Electrodes upon Intercalation of Single-Walled Carbon Nanotubes for Supercapacitors and Lithium Ions batteries. Chem. Commun. 2014, 50, 4485–4488. (引用次数:149) 学术兼职 2019年 Travel Grant Gordon Research Conference on Crystal Growth and Assembly 2018年 国家优秀自费生留学生奖 2018年 CEMS Rising Star Award 2017年 RIKEN Prize Gordon Research Conferences on Self-Assembly and Supramolecular Chemistry 2016年 BASF Rising Star Award Finalist 2015年 JSPS Fellowship (日本学术振兴会研究奖学金) 2014年 SEUT Fellowship (东京大学工学系奖学金) 2014年 浙江大学学生十大学术新成果 (全校每年10名) 2014年 浙江大学优秀毕业生 2013年 国家研究生奖学金 2013年 3M公司(中国)校园创新大赛 全国第三名 团队介绍 关于我们(IC Creative Hub):
通过材料、力学、光学、电子、物理、数学等多学科交叉,瞄准半导体芯片先进制程的要求,发展新型集成电路关键材料设计和创新技术,打破已有的设计框架,开发新一代光刻胶、介电材料及芯片封装材料,培养跨学科的创新型人才。
黄虎彪教授及团队简介:
黄虎彪博士,现任东南大学教授(破格引进)、博士生导师。2015-2017年获得日本学术振兴会Japan Society for the Promotion of Science(JSPS DC1)博士项目资助,在日本东京大学(QS rank 22名)博士研究,获工学博士学位。2017-2019年期间作为JSPS特聘研究员和特任研究员留校工作,期间获得JSPS PD项目资助,主要从事光敏材料、超分子材料、拓扑缺陷等领域的研究。2019年全职加盟日本理化学研究所(RIKEN),获聘终身制研究员(Core member),2022年,获聘日本东京大学工学系助理教授(双聘),研究兴趣为超分子材料,拓扑网络聚合物、可生物降解降解功能超材料、晶体拓扑缺陷及其光学应用研究。
黄虎彪博士在超分子材料、拓扑缺陷等领域取得了国内外同行公认的重要原创性研究成果,以一作、通讯作者在材料、化学和工程等相关领域的顶尖学术刊物,如Nature Nanotechnology (影响因子38.24,1篇)、Nature Communications (Nature子刊,影响因子12.1,3篇)、Journal of American Chemical Society (JACS, 影响因子13.8,4篇)等杂志发表论文26余篇,其中两篇文章入选ESI高被引论文, 总引3000余次。另外,已获得国内授权发明专利1项,申请PCT国际专利1项,申请日本发明专利2项。 招生情况 国家“十四五”规划和2035年远景目标明确提出,“集成电路先进工艺和关键材料”是科技发展的重点攻关领域。然而,美日等发达国家长期主导着先进光刻胶、封装材料和介电材料等关键技术的基础研究与生产标准,极大限制了我国半导体产业的自主创新与发展。为打破这一现状,加快自主研发和创新已成为紧迫的战略需求。 实验室将紧扣国家重大需求,充分发挥实验室在晶体工程、超分子材料及跨学科研究方面的知识和经验积累,突破现有材料设计的传统框架,重点探讨集成电路工艺与关键材料的共性问题与技术挑战,聚焦新型光刻胶、先进封装材料和介电材料的自主创新与技术突破等前沿课题,以应对半导体先进制程中对高性能材料的迫切需求,推动我国集成电路产业的自主创新与快速发展,助力中国在全球半导体产业链中的战略提升。
毕业生介绍 |