中南大学刘敏

nvshi

刘敏,1982年出生，中南大学教授，博士生导师，入选湖南省“青年百人计划”，湖南省科技创新平台与人才计划，超微结构与超快过程湖南省重点实验室、粉末冶金国家重点实验室成员。湖南师范大学理学学士、硕士，中科院电工所工学博士。2010-2015年日本东京大学特聘研究员、主任研究员，2015-2017年加拿大多伦多大学博士后，于2017年8月加入中南大学。近年来在太阳能转换材料、催化材料及器件领域取得了多项创新成果，在Nature, Science, Nature Photonics, Nature Chemistry, Nature Communications, Science Advances , Journal of the American Chemical Society, Advanced Materilals, Angewandte Chemie International Edition, Nano Letters, ACS Nano等国际权威学术期刊上发表论文60余篇，论文他引>2500次，H-因子为27,相关研究成果多次被 Science Daily, Science News, Phys.org, 福布斯等新闻媒体报道。担任10余个国际主要学术期刊审稿人。申请中国、加拿大日本发明专利20余项，其中13项已经授权。博士毕业论文被评为2011年中科院优秀博士论文。


1.教育背景
9/2007-6/2010,博士-电气工程，中科院电工研究所，导师：王文静
9/2004-6/2007, 硕士-凝聚态物理，湖南师范大学，导师：羊亿
9/2000-6/2004, 学士-物理，湖南师范大学


2.工作经历
2017-至今，中南大学物理与电子学院，超微结构与超快过程湖南省重点实验室，教授
2015-2017, 博士后，多伦多大学，（合作导师：Ted Sargent）
2013-2015，主任研究员，东京大学，（合作导师：Kazunari Domen，堂免一成）
2010-2013，特任研究员，东京大学，（合作导师：Kazuhito Hashimoto，桥本和仁）
2012-2013，客座研究员，东京工业大学，（合作导师：Masahiro Miyauchi，宫内雅浩）


3. 联系方式：
中南大学物理与电子学院
超微结构与超快过程湖南省重点实验室
粉末冶金国家重点实验室
湖南长沙，邮编：410083
邮箱: minliu@csu.edu.cn
课题组网站：https://minliugroup.wixsite.com/minliu


4. 研究方向
催化材料及器件；
能源储存及转换材料与器件；
高性能催化材料设计制备及物理机制研究；
纳米材料可控制备及其物理化学性质研究；
先进表征技术开发；


5. 研究生培养
拟每年招收 物理、材料及电子专业 硕士、博士研究生5-7名，欢迎本科生、硕士生、博士生与博士后加入研究团队！
本课题组与加拿大、美国、日本等著名高等学府建立了良好的合作关系，每年有出国开会、实验及交流机会，并可以推荐到国外名校!
要求：做事态度认真，善于沟通表达，敢想敢干，执行力强！


6. 主持项目
（1）2018年 - 2020年， 湖南省科技创新平台与人才计划；
（2）2017年 - 2018年，“高效二氧化碳还原材料设计及制备”，中南大学创新驱动项目；
（3）2017年 - 2018年，“湖南省青年百人计划”；
（4）2017年 - 2017年，粉末冶金国家重点实验室开放项目；
（5）2017年 - 2019年，企业合作项目；


7. 个人荣誉
湖南省“青年百人计划”
湖南省科技创新平台与人才计划
湖南省光学学会理事
中科院百篇优秀博士论文
中科院优秀学生
湖南省优秀学术论文二等奖
湖南省优秀毕业生


发表论文

8. 学术成果

8.1 论文(*通讯作者)

2018

1. M. Liu, et al., Quantum Dots Derived Catalysts.

Nature, 2018, Revised.

2. Y. Zhou, F. Che, M. Liu, et al. Electron localization drives CO2 reduction to multi-carbon hydrocarbons,

Nature Chemistry, 2018, Accepted. (equal contribution)

3. Shuang Cao, Yong Chen,* Hui Wang, Jie Chen, Xinghua Shi, Hongmei Li, Ping Cheng,* Xinfeng Liu,* Min Liu* and Lingyu Piao*,“Ultrasmall CoP

Nanoparticles as Efficient Cocatalysts for Photocatalytic Formic Acid Dehydrogenation”,

Joule 2018, Accepted

4. J. Xu, O. Voznyy, M. Liu , A. Krimani, G. Walters , R. Munir, M. Abdelsamie, A. Proppe, M. Wei, B. Sun, M Liu , F. Arquer, R. Bermudez, J. Li,

J. Fan , L. Quan, P. Todorovic, H. Tan, A. Sarkar, S. Hoogland, M. Stefik, A. Amassian and E. Sargent, 2D matrix engineering for

homogeneous quantum dot coupling in photovoltaic solids,

Nature Nanotechnology, 2018, Accepted.

5. X. Zheng, B. Zhang, P. Luna, Y. Liang, R. Comin, O. Voznyy, L. Han, F. Arquer, M. Liu, C. Dinh, T. Regier, J. Dynes, S. He, H. Xin, H. Peng,

D. Prendergast, X. Du and E. Sargent, Theory-driven design of high-valence metal sites for water oxidation confirmed using in situ soft X-ray absorption,

Nature Chemistry, 2018, 10, 149.

6. X. Li, F. Fan, Y. Zhao, L. Levina, M. Liu, R. Bermudez, X. Gong, L. Quan, J. Fan, Z. Yang, S. Hoogland, O. Voznyy, Z. Lu and E. Sargent,

Nature Photonics, 2018, 12, 159.

2017

1. F. Fan, O. Voznyy, R. P. Sabatini, K. T. Bicanic, M. M. Adachi, J. R. McBride, K. R. Reid, Y. S. Park, X. Li, A. Jain, R. Quintero-Bermudez, M.

Saravanapavanantham,M. Liu, M. Korkusinski, P. Hawrylak, V. I. Klimov, S. J. Rosenthal, S. Hoogland, E. H. Sargent, Continuous-wave lasing

in colloidal quantum dot solids enabled by facet-selective epitaxy,

Nature, 2017,544, 75.

2. Z. Yang, J. Fan, A. P. Arquer, D. Rossouw, O. Voznyy, X. Lan, M. Liu, G. Walters, R. Bermudez, B. Sun, S. Hoogland, G. Botton, S. Kelley, and E. Sargent, Mixed-Quantum-Dot Solar Cells,

Nature Communications, 2017, 8, 1325.

3. H. Coskun, A. Aljabour, P. Luna, D. Farka, T. Greunz, D. Stifter, M. Kus, X. Zheng, M. Liu, A. Hassel, W. Schöfberger, E. Sargent,

N. Sariciftci, P. Stadler, Biofunctionalized conductive polymers enable efficient CO2 electroreduction

Science Advances, 2017, 3, e1700686.

4. F. Arquer*, X. Gong*, R. P. Sabatini,M. Liu, G. H. Kim, B. R. Sutherland, O. Voznyy, J. Xu, Y. Pang, S. Hoogland, D. Sinton & E. H. Sargent, Field-emission from quantum-dot-in-perovskite solids,

Nature Communications, 2017,8, 14757.

5. X. Zheng, P. Luna, F. Arquer, B. Zhang, N. Becknell, M. Ross, Y. Li, M. Banis, Y. Li, M. Liu, O. Voznyy, C. Dinh, T. Zhuang, Y. Cui, X. Du,

P. Yang and E. H. Sargent, Sulfur-Modulated Tin Sites Enable Highly Selective Electrochemical Reduction of CO2 to Formate

Joule, 2017, 1, 794.

6. Z. Yang, O. Voznyy, G. Walters, J. Z. Fan,M. Liu, S. Kinge, S. Hoogland, E. H. Sargent, Quantum Dots in Two-Dimensional Perovskite

Matrices for Efficient Near-Infrared Light Emission,

ACS Photonics,2017, 4, 830.

7. Y. Kim, K. Bicanic, H. Tan, O. Ouellette, B. R. Sutherland, F. Pelayo García de Arquer, J. W. Jo,M. Liu, B. Sun, M. Liu, S. Hoogland, E. H. Sargent, Nanoimprint-Transfer-Patterned Solids Enhance Light Absorption in Colloidal Quantum Dot Solar Cells,

Nano Lett., 2017,17, 2349.

8. A. J. Labelle, M. Bonifazi, Y. Tian, C. Wong, S. Hoogland, G. Favraud, G. Walters, B. Sutherland,M. Liu, Jun Li, X. Zhang, S. O. Kelley, E.

H. Sargent, A. Fratalocchi, Broadband Epsilon-near-Zero Reflectors Enhance the Quantum Efficiency of Thin Solar Cells at Visible and Infrared Wavelengths,

ACS Appl. Mater. Interfaces, 2017,9, 5556.

9. JZ Fan, M Liu, O Voznyy, B Sun, L Levina, R Quintero-Bermudez, M Liu, O. Ouellette, F. Arquer, S. Hoogland, E. Sargent, Halide Re-Shelled

Quantum Dot Inks for Infrared Photovoltaics

ACS Appl. Mater. Interfaces, 2017,9,37536.

10. D. Wang, C. Wang, F. Pelayo Garcia de Arquer, J. Zhong, L. Qian, L. Fang, P. Liu, Y. Pang,M. Liu, M. Liu, G. Zheng, D. Sinton, E. H.

Sargent, H. Yangb, B. Zhang, Band-aligned C3N4_xS3x/2 stabilizes CdS/CuInGaS2 photocathodes for efficient water reduction,

J. Mater. Chem. A, 2017, 5, 3167

11. B. Sun, O. Voznyy, H. Tan, P. Stadler, M. Liu, G. Walters, A. Proppe,M. Liu, J. Fan, T. Zhuang, J. Li, M. Wei, J. Xu, Y. Kim, S. Hoogland, E.

Sargent, Pseudohalide‐Exchanged Quantum Dot Solids Achieve Record Quantum Efficiency in Infrared Photovoltaics,

Advanced Materials, 2017, 29, 1700749.

12. Y. Tian, F. Arquer, C. Dinh, G. Favraud, M. Bonifazi, J. Li,M. Liu, X. Zhang, X. Zheng, M. Kibria, S. Hoogland, D. Sinton, E. Sargent, A.

Fratalocchi, Enhanced Solar‐to‐Hydrogen Generation with Broadband Epsilon‐Near‐Zero Nanostructured Photocatalysts,

Advanced Materials, 2017, 29, 1701165.

13. T. Burdyny, P. Graham, Y. Pang, C. Dinh,M. Liu, E. Sargent, D. Sinton, Nanomorphology-enhanced gas-evolution intensifies CO2 reduction

electrochemistry,

ACS Sustainable Chem. Eng., 2017, 5, 4031.

14. Y. Pang, T. Burdyny, T. Dinh, K. Golam, J. Fan,M. Liu, E. Sargent, D. Sinton, Joint Tuning of Nanostructured Cu-Oxide Morphology and

Local Electrolyte Programs High-Rate CO2 Reduction to C2H4,

Green Chem., 2017, 19, 4023.

15. N. Wang,M. Liu, H. Tan, J. Liang, Q. Zhang, C. Wei, Y. Zhao, E. Sargent, X. Zhang, Compound Homojunction: Heterojunction Reduces

Bulk and Interface Recombination in ZnO Photoanodes for Water Splitting,

Small, 2017, 13, 1603527. (equal contribution)

16. N Wang, M Liu, J Liang, T Li, H Tan, B Liu, Q Zhang, C Wei, Y Zhao, X. Zhang, Conductive layer protected and oxide catalyst-coated thin-

film silicon solar cell as an efficient photoanode,

Catalysis Science & Technology, 2017, 7, 5608.

2016

1. M. Liu, Y. Pang, B. Zhang, P. Luna, O. Voznyy, J. Xu, X. Zheng, C. Dinh, F. Fan, C. Cao, F. P. García de Arquer, T. Safaei, A. Mepham, T. Filleter, D. Sinton, S. Kelley, E. Sargent, Enhanced CO2 Reduction Catalysts via Field-Induced Reagent Concentration,

Nature, 2016, 537, 382.

2. B. Zhang, X. Zheng, V. Alex, R. Comin, M. Bajdich, M. Melchor, J. Xu,M. Liu, F. Arquer, C. Dinh, F. Fan, M. Yuan, E. Yassitepe, A. Janmohamed, N. Chen, T. Regier, L. Han, P. Liu, Y. Li, P. Luana, H. Xin, L. Zheng, H. Yang, A. Vojvodic, E. Sargent.

Science, 2016, 352, 333.

3. M. Liu, H. Li, W. Wang, Defective TiO2 with oxygen vacancy and nanocluster modification for efficient visible light environment remediation,

Catal. Today, 2016, 264, 236-242.

4. R. Inde,M. Liu,D. Atarashi, E. Sakai, M. Miyauchi, Ti (IV) nanocluster as a promoter on semiconductor photocatalysts for oxidation of organic compounds,

J. Mater. Chem. A2016,4, 1784. (equal contribution)

5. T. Saberi Safaei, A. Mepham, X. Zheng, Y. Pang, C. Dinh,M. Liu, D. Sinton, S. O. Kelley, E. H. Sargent, High-Density Nanosharp Microstructures Enable Efficient CO2 Electroreduction,

Nano Lett., 2016, 16, 7224.

6. Y. Kim, Z. Yang, A. Jain, O. Voznyy, G. Kim,M. Liu, L. N. Quan, F. P. Garca de Arquer, R. Comin, J. Z. Fan, E. H. Sargent, Pure Cubic-Phase Hybrid Iodobismuthates AgBi2I7 for Thin-Film Photovoltaics,

Angew. Chem. Int. Ed.2016, 55, 9586 –9590

7. X. Lan, O. Voznyy, F. P. García de Arquer, M. Liu, J. Xu, A. H. Proppe, G. Walters, F. Fan, H. Tan,M. Liu, Z. Yang, S. Hoogland, E. H. Sargent, 10.6% Certified Colloidal Quantum Dot Solar Cells via SolventPolarity-Engineered Halide Passivation,

Nano Lett., 2016, 16 (11), 4630.

8. X. Zheng, C. Dinh, F. P. García de Arquer, B. Zhang,M. Liu, O. Voznyy, Y. Li, G. Knight, S. Hoogland, Z. Lu, X. Du, E. H. Sargent, ZnFe2O4 Leaves Grown on TiO2 Trees Enhance Photoelectrochemical Water Splitting,

Small, 2016, 12, 3181.

9. M. Miyauchi, H. Irie, M. Liu, X. Qiu, H. Yu, K. Sunada, K. Hashimoto, Visible-light-sensitive Photocatalysts. Nanocluster-grafted Titanium Dioxide for Indoor Environmental Remediation.

J. Phys. Chem. Lett.2016, 7, 75.

10. J. Xu, O. Voznyy, R. Comin, X. Gong, G. Walters,M. Liu, P. Kanjanaboos, X. Lan, E. Sargent, Crosslinked Remote‐Doped Hole‐Extracting Contacts Enhance Stability under Accelerated Lifetime Testing in Perovskite Solar Cells,

Adv. Mater., 2016, 28, 2807.

11. Z. Yan, Y. Wang, D. Zeng, D. Chrisey,M. Liu, Multifunctionalization of Nanostructured Metal Oxides,

J. Nanomater.,2016, 1, 1.

12. J. Liang, H. Tan,M. Liu, B. Liu, N. Wang, Q. Zhang, Y. Zhao, A. Smets, M. Zeman, X. Zhang, A thin-film silicon based photocathode with a hydrogen doped TiO 2 protection layer for solar hydrogen evolution,

J. Mater. Chem. A2016, 4, 16841.(equal contribution)

2015

1. M. Liu, S. Kayano, K. Hashimoto*, M. Miyauchi*,Visible-light sensitive Cu(II)-TiO2 with sustained anti-viral activity for efficient indoor environmental remediation,

J. Mater. Chem. A2015,3, 17312.

2. M. Liu*, Y. Suzuki, BiVO4hollow nanoplates with improved photocatalytic water oxidation efficiency.

Current Nanosci.2015, 11, 499.

3. M. Liu, H. Li*, W. Wang*,Facile Preparation of Efficient WO3 Photocatalysts Based on Surface Modification,

J. Nanomater.2015, 502514.

4. B. Zhang, F. Wei, Q. Wu, L. Piao,M. Liu*, Z. Jin, Formation and Evolution of the High-Surface-Energy Facets of Anatase TiO2,

J. Phys. Chem. C, 2015,119, 6094.

5. M. Liu, M. Zhong, H. M. Li, L. Y. Piao, W. J. Wang, Facile synthesis of hollow TiO2 nano-single crystals with improved photocatalytic and photoeletrochemical activities,

ChemPlusChem, 2015,80, 688.

6. F. Chen, L. Liu, Q. Gao,M. Liu, H. Yu, J. Yu, AgI-BiOI Spherical Solid Solutions with Enhanced Visible-Light Photocatalytic Performances,

Curret. Nanosci.2015, 11, 435.

7. M. Zhong, T. Hisatomi, Y. Kuang, J. Zhao,M. Liu, A. Iwase, Q. Jia, H. Nishiyama, T. Minegishi, M. Nakabayashi, N. Shibata, R. Niishiro, C. Katayama, H. Shibano, M. Katayama, A. Kudo, T. Yamada, K. Domen, Surface modification of the CoOx loaded BiVO4 photoanodes with ultrathin p-type NiO layers for the improved solar water oxidation,

J. Am. Chem. Soc.2015, 137, 5053.

2014

1. M. Liu, R. Inde, M. Nishikawa, X. Qiu, D. Atarashi, E. Sakai, Y. Nosaka, K. Hashimoto*, M. Miyauchi*, Enhanced photoactivity with nanocluster-grafted titanium dioxide photocatalysts.

ACS Nano, 2014,8, 7229.

2. M. Liu, X. Qiu, K. Hashimoto*, M. Miyauchi*,Cu(II) nanocluster-grafted, Nb-doped TiO2as an efficient visible-light-sensitive photocatalysts based on energy-level matching between surface and bulk states,

J. Mater. Chem. A2014,2, 13571.

3. Y. Xie, Z. Wu, Q. Wu,M. Liu*, L. Piao*, Effect of different base structures on the performance of the hierarchical TiO2 photocatalysts.

Catal. Today2014, 225, 74.

2013

1. M. Liu, X. Qiu, M. Miyauchi*, K. Hashimoto*, Energy level matching of Fe ions grafted at Surface and Doped in Bulk for Efficient Visible-Light Photocatalysts.

J. Am. Chem. Soc.,2013,135, 10064.

2. M. Liu*, H. Li, Y. Zeng, W. Wang,Facile fabrication of anatase TiO2single crystals with dominant{001}facets from Ti powders,

Appl. Surf. Sci.2013,274, 117.

3. T. Zhang,M. Liu, Q. Zeng, Z. Wu, L. Piao*, S. Zhao*, Novel porphyrin-phthalocyanine heterodimers and heteropentamers: synthesis, characterization and application in organic solar cells.

RSC Adv.2013,3, 13259.

4. X. Qiu,M. Liu, T. Hayashi, M. Miyauchi*, K. Hashimoto*, Solution-based synthesis of pyrite film with enhanced photocurrent generation.

Chem. Commun.2013,49, 1232.

5. J. Hu, H. Li, C. Huang,M. Liu, X. Qiu*, Enhanced photocatalytic activity of Bi2O3 under visible light irradiation by Cu(II) clusters modification.

Appl. Catal. B2013,142, 598.

2012

1. H. Li, Y. Zeng, T. Huang, L. Piao*, Z. Yan,M.Liu*. Hierarchical TiO2nanospheres with dominant{001}facets: facile synthesis, growth mechanism and photocatalytic activity,

Chem.Eur. J., 2012, 18, 7525.

2. H. Li, Y. Zeng, T. Huang, L. Piao,*M. Liu*. Controlled synthesis of anatase TiO2single crystals with dominant{001}facets from TiO2powders.

ChemPlusChem,2012, 77, 1017.

3. H. Li, Y. Zeng, T. Huang,M. Liu*,Oxygen vacancies contained TiO2spheres: facile fabrication and enhanced ferromagnetism,

J. Nanopart. Res.,2012, 14, 1030.

4. Q. Wu,M. Liu, Z. Wu, Y. Li, L. Piao*, Is photooxidation activity of{001}facets truly lower than that of{101}facets for anatase TiO2crystals?

J. Phys. Chem. C,2012,116, 26800.

5. X. Qiu,M. Liu, M. Miyauchi*, K. Hashimoto*. A facile one-step hydrothermal synthesis of rhombohedral CuFeO2crystals with antivirus property.

Chem. Commun.2012,12, 7365.

6. X. Qiu, M. Miyauchi*, K. Sunada, M. Minoshima,M.Liu, Y. Lu, D. Li, Y. Shimodaira, Y. Hosogi, Y. Kuroda, K.Hashimoto*, Hybrid CuxO/TiO2nanocomposites as risk-reduction materials in indoor environments.

ACS Nano,2012, 6, 1609.

2011

1. M. Liu, X. Qiu, M. Miyauchi*, K. Hashimoto*. Cu(II) oxide amorphous nanoclusters grafted Ti3+self-dope TiO2: an efficient photocatalyst,

Chem. Mater.,2011, 23, 5282.

2. M. Liu, L. Piao*, W. Wang*, Hierarchical TiO2spheres: facile fabrication and enhanced photocatalysis,

Rare Met., 2011,30, 153.

3. W. Ou, Y. Zhang, H. Li, L. Zhao, C. Zhou, H. Diao,M. Liu, W. Lu, J. Zhang, W. Wang*, A simple texturization approach for mono-crystalline silicon solar cell with low TMAH concentration solution,

Mater. Sci. Forum, 2011,685, 26.

4. W. Ou, Y. Zhang, H. Li, L. Zhao, C. Zhou, H. Diao,M. Liu, W. Lu, J. Zhang, W. Wang*, Effects of IPA on texturing process for mono-crystalline silicon solar cell in TMAH solution.

Mater. Sci. Forum, 2011,685, 31.

2010

1. M. Liu, L. Piao, L. Zhao, S. Ju, Z. Yan, T. He, C. Zhou, W. Wang*, Anatase TiO2single crystals with exposed{001}and{110}facets: facile synthesis and enhanced photocatalysis,

Chem. Commun., 2010,46, 1664.

2. M. Liu, L. Piao, W. Lu, S. Ju, L. Zhao, C. Zhou, H. Li, W. Wang*, Flower-like TiO2nanostructures with exposed{001}facets synthesis and enhanced photocatalysis,

Nanoscale, 2010,2, 1115.

3. M. Liu, L. Piao*, W. Wang*, Fabrication and characteristics of three-dimensional flower-like titanate nanostructures,

J. Nanosci. Nanotechnol.,2010,10, 7469.

4. M. Liu, L. Piao,S. Ju,W. Lu,L. Zhao,C. Zhou, W. Wang*, Fabrication of micrometer-scale spherical titanate nanotube assemblies with high specific surface area,

Mater. Lett.,2010,64, 1204.

5. M. Liu, W. Lu,L. Zhao,C. Zhou, H. Li, W. Wang*, Fabrication and photocatalytical properties of flower-like TiO2nanostructures,

Trans. Nonferrous Met. Soc. China,2010,20, 2299.

6. H. Li,M. Liu, Y. Zeng*, T. Huang, Coexistence of antiferromagnetic and ferromagnetic in Mn- doped TiO2nanowires,

J. Cent. South Univ. Technol., 2010,17, 239.

7. W. Ou, Y. Zhang, H. Li, L. Zhao, C. Zhou, H. Diao,M. Liu, W. Lu, J. Zhang, W. Wang*. Texturization of mono-crystalline silicon solar cells in TMAH without the addition of surfactant,

J. Semicond.,2010,31, 106002-1.

Before 2010

1. M.Liu, Y. Yang*, Y. Luo, S. He, F. Huang, The actuality and development of CdS/CdTe solar cells,J.Chin.Tech.Prod.,2006,5, 36.

2. S. He,M. Liu, Y. Yang*, Ultrasonic spray pyrolysis deposition of TiO2films,Chin. Elec. Dev.2008,31, 236.

3. Y. Yang*, Y. Luo,M. Liu, S. He, The effect of orientation on the properties of transprant conducting SnO2:F films,Chin. Elec. Dev.,2008,31, 233.

4. H. Li, Y. Yang*, Y. Huang,M. Liu, Y. Luo, Growth and properties of cubic and hexagonal CdS thin films by CBD,J. Solar Cells,2007,28, 508.

5. Y. Huang, Y. Yang*, H. Li,M. Liu, Y. Luo, V2O5Thin films prepared by ultrasonic spray deposition,J. Shaoyang Univ.,2006,3, 23.