朱海明
/Upload/202602/1772198914.jpg
朱海明,2008年毕业于中国科学技术大学化学与材料科学学院;2014年在美国Emory大学获得物理化学博士学位,导师Tianquan Lian教授;之后在美国Columbia大学Xiaoyang Zhu教授组里做博士后研究员。2016年7月任职浙江大学化学系研究员,博士生导师。主要利用时间分辨激光光谱研究低维纳米材料和高新材料的激发态性质和载流子动力学以及他们在太阳能转化和发光上的应用。截止2016年9月,在Science, Nature Materials, Advanced Materials, Nature Communication, Journal of American Chemical Society, Nano Letter, ACS Nano等刊物上发表论文40余篇,引用超过1900次,H因子24.部分研究成果被Nature Materials, Science Daily, C&EN等国际科学媒体广泛报道。曾获美国Emory大学研究生最高奖Lester Award,美国NSF MRSEC博后奖学金,中国优秀自费留学生奖学金,国际固体激发态动力学会议 Sturge Prize。
研究与成果

  1. Zhu, H. †; Wang, J.†; Gong, Z.; Kim, Y. D.; Hone, J.;Zhu, X. Y. Interfacial Charge Transfer Circumventing Momentum Mismatch atTwo-Dimensional van der Waals Heterojunctions. Nano Letters 2017, 17(6), 3591-3598.

  2. Zhu, H.†; Trinh, M.T.†; Wang, J.; Fu, Y.; Joshi, P; Miyata,K.; Jin, S.; Zhu, X.-Y. Organic Cations Might Not Be Essential to theRemarkable Properties of Band Edge Carriers in Lead Halide Perovskites. Advanced Materials 2017, 29 (1),1603072

  3. Zhu, H.†; Miyata, K†; Fu, Y; Wang, J; Joshi, P; Jin,S.; Zhu, X.-Y. Screening in Crystalline Liquids Protects Energetic Carriers inHybrid Perovskites. Science 2016 353, 1409-1413

    Highlighted by Perspective in Science, Science Daily, Compound Semiconductor,Silicon semiconductor, science bulletin

  4. Fu, Y.†; Zhu, H.† (Co-first authors); Stoumpos, C; Ding, Q; Wang, J; Kanatzidis,M; Zhu, X-Y. and Jin, S. Broad Wavelength Tunable Robust Lasing fromSingle-Crystal Nanowires of Cesium Lead Halide Perovskites (CsPbX3, X=Cl, Br,I). ACS Nano 2016 10 (8), 7963

  5. Niesner, D.†; Zhu, H.† (Co-first authors); Miyata, K.†; Evans, J. T.; Kudisch, J. B.; Joshi, P. P.; Miyata, K.; Trinh, M.T.; Marks, M; Zhu, X.-Y. Persistent Energetic Electrons in Methylammonium LeadIodide Perovskite Thin Films. J. Am. Chem. Soc., 2016, 138 (48), 15717

  6. Fu, Y.†; Zhu, H. (Co-first authors); Schrader, A. W.; Liang, D.; Ding, Q.;Joshi, P.; Hwang, L.; Zhu, X. Y.; Jin, S., Nanowire Lasers of FormamidiniumLead Halide Perovskites and Their Stabilized Alloys with Improved Stability. Nano Lett.201616 (2), 1000–1008

  7. Zhu, H.; Yang, Y.; Wu, K.; Lian, T.Charge Transfer Dynamics from Photoexcited Semiconductor Quantum Dots. Annu.Rev. Phys. Chem,2016(67) 259-281

  8. Zhu, H.†; Fu, Y.†; Meng, F.; Wu, X.;Gong, Z.; Ding, Q.; Trinh, M.; Jin, S.;Zhu, X.-Y. Lead Halide Perovskite Nanowire Lasers with Low Lasing Thresholds and High Q factors. Nature Materials 201514, 636–642.

    "HotPaper" (ranked 0.1%) by ESI. Highlighted by Nature Materials News andViews, C&EN, Science News, ScienceDaily, Phys.org, IEEE Spectrum, MRS Bulletin

  9. Wu, X.†; Trinh, T.†;Niesner, D.†; Zhu, H.† (Co-firstauthor); Norman, Z.; Owen, J.; Omer Yaffe, O.; Kudisch, B.; Zhu, X.-Y. TrapStates in Lead Iodide Perovskites. J. Am. Chem. Soc., 2015137 (5), 2089–2096

  10. Zhu, H.†; Yang, Y†.; Hyeon-Deuk, K.;Califano, M.; Song, N.; Wang, Y.; Zhang, W.; Prezhdo, O. V.; Lian, T.,Auger-Assisted Electron Transfer from Photoexcited Semiconductor Quantum Dots. Nano Lett. 2014,14 (3), 1263-9

  11. Zhu, H.; Song, N.; Lian, T., Charging of Quantum Dots by Sulfide RedoxElectrolytes Reduces Electron Injection Efficiency in Quantum Dot SensitizedSolar Cells. J. Am. Chem. Soc. 2013, 135 (31), 11461-11464.

  12. Zhu, H.; Yang, Y.; Lian, T., Multiexciton Annihilation and Dissociation inQuantum Confined Semiconductor Nanocrystals. Acc. Chem. Res. 2013, 46(6), 1270-1279.

  13. Zhu, H.; Lian, T., Wavefunction engineering in quantum confinedsemiconductor nanoheterostructures for efficient charge separation and solarenergy conversion. (Invited review)Energy Environ. Sci. 2012, 5 (11), 9406-9418.

  14. Zhu, H.; Lian, T., Enhanced Multiple Exciton Dissociation from CdSe QuantumRods: the Effect of Nanocrystal Shape. J. Am. Chem. Soc. 2012, 134 (27),11289-11297

  15. Zhu, H.; Song, N.; Lv, H.; Hill, C. L.; Lian, T., Near unity quantum yieldof light-driven redox mediator reduction and efficient H2 generation usingcolloidal nanorod heterostructures. J. Am. Chem. Soc. 2012, 134 (28),11701-11708.

  16. Zhu, H.; Song, N.; Rodríguez-Córdoba, W.; Lian, T., Wave FunctionEngineering for Efficient Extraction of up to Nineteen Electrons from OneCdSe/CdS Quasi-Type II Quantum Dot. J. Am. Chem. Soc. 2012, 134 (9),4250-4257.

  17. Zhu, H.; Song, N.; Lian, T., Wave Function Engineering for Ultrafast ChargeSeparation and Slow Charge Recombination in Type II Core/Shell Quantum Dots. J.Am. Chem. Soc. 2011, 133 (22), 8762-8771.

  18. Zhu, H.; Song, N.; Lian, T., Controlling Charge Separation and RecombinationRates in CdSe/ZnS Type I Core−Shell Quantum Dots by Shell Thicknesses. J.Am. Chem. Soc. 2010, 132 (42), 15038-15045.


奖励荣誉

2016 Sturge Prize, International Conference on Dynamical Processes in Excited States of Solids

2014 NSF MRSEC Fellow, Columbia University

2013 Chinese Government Award for Outstanding Self-financed Students Abroad, Chinese Government

2013 Lester Award, Emory University

2012 Johnston Award, Emory University

2011 Quayle Fellowship, Emory University

2008 Outstanding Dissertation for Bachelor’s Degree, USTC

2007 Excellent Undergraduate Research Project, USTC

2006 Excellent Student Scholarship, USTC


发表论文

  1. Zhu, H. †; Wang, J.†; Gong, Z.; Kim, Y. D.; Hone, J.;Zhu, X. Y. Interfacial Charge Transfer Circumventing Momentum Mismatch atTwo-Dimensional van der Waals Heterojunctions. Nano Letters 2017, 17(6), 3591-3598.

  2. Zhu, H.†; Trinh, M.T.†; Wang, J.; Fu, Y.; Joshi, P; Miyata,K.; Jin, S.; Zhu, X.-Y. Organic Cations Might Not Be Essential to theRemarkable Properties of Band Edge Carriers in Lead Halide Perovskites. Advanced Materials 2017, 29 (1),1603072

  3. Zhu, H.†; Miyata, K†; Fu, Y; Wang, J; Joshi, P; Jin,S.; Zhu, X.-Y. Screening in Crystalline Liquids Protects Energetic Carriers inHybrid Perovskites. Science 2016 353, 1409-1413

    Highlighted by Perspective in Science, Science Daily, Compound Semiconductor,Silicon semiconductor, science bulletin

  4. Fu, Y.†; Zhu, H.† (Co-first authors); Stoumpos, C; Ding, Q; Wang, J; Kanatzidis,M; Zhu, X-Y. and Jin, S. Broad Wavelength Tunable Robust Lasing fromSingle-Crystal Nanowires of Cesium Lead Halide Perovskites (CsPbX3, X=Cl, Br,I). ACS Nano 2016 10 (8), 7963

  5. Niesner, D.†; Zhu, H.† (Co-first authors); Miyata, K.†; Evans, J. T.; Kudisch, J. B.; Joshi, P. P.; Miyata, K.; Trinh, M.T.; Marks, M; Zhu, X.-Y. Persistent Energetic Electrons in Methylammonium LeadIodide Perovskite Thin Films. J. Am. Chem. Soc., 2016, 138 (48), 15717

  6. Fu, Y.†; Zhu, H. (Co-first authors); Schrader, A. W.; Liang, D.; Ding, Q.;Joshi, P.; Hwang, L.; Zhu, X. Y.; Jin, S., Nanowire Lasers of FormamidiniumLead Halide Perovskites and Their Stabilized Alloys with Improved Stability. Nano Lett.201616 (2), 1000–1008

  7. Zhu, H.; Yang, Y.; Wu, K.; Lian, T.Charge Transfer Dynamics from Photoexcited Semiconductor Quantum Dots. Annu.Rev. Phys. Chem,2016(67) 259-281

  8. Zhu, H.†; Fu, Y.†; Meng, F.; Wu, X.;Gong, Z.; Ding, Q.; Trinh, M.; Jin, S.;Zhu, X.-Y. Lead Halide Perovskite Nanowire Lasers with Low Lasing Thresholds and High Q factors. Nature Materials 201514, 636–642.

    "HotPaper" (ranked 0.1%) by ESI. Highlighted by Nature Materials News andViews, C&EN, Science News, ScienceDaily, Phys.org, IEEE Spectrum, MRS Bulletin

  9. Wu, X.†; Trinh, T.†;Niesner, D.†; Zhu, H.† (Co-firstauthor); Norman, Z.; Owen, J.; Omer Yaffe, O.; Kudisch, B.; Zhu, X.-Y. TrapStates in Lead Iodide Perovskites. J. Am. Chem. Soc., 2015137 (5), 2089–2096

  10. Zhu, H.†; Yang, Y†.; Hyeon-Deuk, K.;Califano, M.; Song, N.; Wang, Y.; Zhang, W.; Prezhdo, O. V.; Lian, T.,Auger-Assisted Electron Transfer from Photoexcited Semiconductor Quantum Dots. Nano Lett. 2014,14 (3), 1263-9

  11. Zhu, H.; Song, N.; Lian, T., Charging of Quantum Dots by Sulfide RedoxElectrolytes Reduces Electron Injection Efficiency in Quantum Dot SensitizedSolar Cells. J. Am. Chem. Soc. 2013, 135 (31), 11461-11464.

  12. Zhu, H.; Yang, Y.; Lian, T., Multiexciton Annihilation and Dissociation inQuantum Confined Semiconductor Nanocrystals. Acc. Chem. Res. 2013, 46(6), 1270-1279.

  13. Zhu, H.; Lian, T., Wavefunction engineering in quantum confinedsemiconductor nanoheterostructures for efficient charge separation and solarenergy conversion. (Invited review)Energy Environ. Sci. 2012, 5 (11), 9406-9418.

  14. Zhu, H.; Lian, T., Enhanced Multiple Exciton Dissociation from CdSe QuantumRods: the Effect of Nanocrystal Shape. J. Am. Chem. Soc. 2012, 134 (27),11289-11297

  15. Zhu, H.; Song, N.; Lv, H.; Hill, C. L.; Lian, T., Near unity quantum yieldof light-driven redox mediator reduction and efficient H2 generation usingcolloidal nanorod heterostructures. J. Am. Chem. Soc. 2012, 134 (28),11701-11708.

  16. Zhu, H.; Song, N.; Rodríguez-Córdoba, W.; Lian, T., Wave FunctionEngineering for Efficient Extraction of up to Nineteen Electrons from OneCdSe/CdS Quasi-Type II Quantum Dot. J. Am. Chem. Soc. 2012, 134 (9),4250-4257.

  17. Zhu, H.; Song, N.; Lian, T., Wave Function Engineering for Ultrafast ChargeSeparation and Slow Charge Recombination in Type II Core/Shell Quantum Dots. J.Am. Chem. Soc. 2011, 133 (22), 8762-8771.

  18. Zhu, H.; Song, N.; Lian, T., Controlling Charge Separation and RecombinationRates in CdSe/ZnS Type I Core−Shell Quantum Dots by Shell Thicknesses. J.Am. Chem. Soc. 2010, 132 (42), 15038-15045.

 

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朱海明
朱海明  
朱海明,2008年毕业于中国科学技术大学化学与材料科学学院;2014年在美国Emory大学获得物理化学博士学位,导师TianquanLian教授;之后在美国Columbia大学XiaoyangZhu教授组里做博士后研究员。2016年7月任职浙江大学化学系研究员,博士生导师。主要利用时间分辨激光光谱研究低维纳米材料和高新材料的激发态性质和载流子动力学以及他们在太阳能转化和发光上的应用。截止2016年...
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详细介绍
朱海明,2008年毕业于中国科学技术大学化学与材料科学学院;2014年在美国Emory大学获得物理化学博士学位,导师Tianquan Lian教授;之后在美国Columbia大学Xiaoyang Zhu教授组里做博士后研究员。2016年7月任职浙江大学化学系研究员,博士生导师。主要利用时间分辨激光光谱研究低维纳米材料和高新材料的激发态性质和载流子动力学以及他们在太阳能转化和发光上的应用。截止2016年9月,在Science, Nature Materials, Advanced Materials, Nature Communication, Journal of American Chemical Society, Nano Letter, ACS Nano等刊物上发表论文40余篇,引用超过1900次,H因子24.部分研究成果被Nature Materials, Science Daily, C&EN等国际科学媒体广泛报道。曾获美国Emory大学研究生最高奖Lester Award,美国NSF MRSEC博后奖学金,中国优秀自费留学生奖学金,国际固体激发态动力学会议 Sturge Prize。
研究与成果

  1. Zhu, H. †; Wang, J.†; Gong, Z.; Kim, Y. D.; Hone, J.;Zhu, X. Y. Interfacial Charge Transfer Circumventing Momentum Mismatch atTwo-Dimensional van der Waals Heterojunctions. Nano Letters 2017, 17(6), 3591-3598.

  2. Zhu, H.†; Trinh, M.T.†; Wang, J.; Fu, Y.; Joshi, P; Miyata,K.; Jin, S.; Zhu, X.-Y. Organic Cations Might Not Be Essential to theRemarkable Properties of Band Edge Carriers in Lead Halide Perovskites. Advanced Materials 2017, 29 (1),1603072

  3. Zhu, H.†; Miyata, K†; Fu, Y; Wang, J; Joshi, P; Jin,S.; Zhu, X.-Y. Screening in Crystalline Liquids Protects Energetic Carriers inHybrid Perovskites. Science 2016 353, 1409-1413

    Highlighted by Perspective in Science, Science Daily, Compound Semiconductor,Silicon semiconductor, science bulletin

  4. Fu, Y.†; Zhu, H.† (Co-first authors); Stoumpos, C; Ding, Q; Wang, J; Kanatzidis,M; Zhu, X-Y. and Jin, S. Broad Wavelength Tunable Robust Lasing fromSingle-Crystal Nanowires of Cesium Lead Halide Perovskites (CsPbX3, X=Cl, Br,I). ACS Nano 2016 10 (8), 7963

  5. Niesner, D.†; Zhu, H.† (Co-first authors); Miyata, K.†; Evans, J. T.; Kudisch, J. B.; Joshi, P. P.; Miyata, K.; Trinh, M.T.; Marks, M; Zhu, X.-Y. Persistent Energetic Electrons in Methylammonium LeadIodide Perovskite Thin Films. J. Am. Chem. Soc., 2016, 138 (48), 15717

  6. Fu, Y.†; Zhu, H. (Co-first authors); Schrader, A. W.; Liang, D.; Ding, Q.;Joshi, P.; Hwang, L.; Zhu, X. Y.; Jin, S., Nanowire Lasers of FormamidiniumLead Halide Perovskites and Their Stabilized Alloys with Improved Stability. Nano Lett.201616 (2), 1000–1008

  7. Zhu, H.; Yang, Y.; Wu, K.; Lian, T.Charge Transfer Dynamics from Photoexcited Semiconductor Quantum Dots. Annu.Rev. Phys. Chem,2016(67) 259-281

  8. Zhu, H.†; Fu, Y.†; Meng, F.; Wu, X.;Gong, Z.; Ding, Q.; Trinh, M.; Jin, S.;Zhu, X.-Y. Lead Halide Perovskite Nanowire Lasers with Low Lasing Thresholds and High Q factors. Nature Materials 201514, 636–642.

    "HotPaper" (ranked 0.1%) by ESI. Highlighted by Nature Materials News andViews, C&EN, Science News, ScienceDaily, Phys.org, IEEE Spectrum, MRS Bulletin

  9. Wu, X.†; Trinh, T.†;Niesner, D.†; Zhu, H.† (Co-firstauthor); Norman, Z.; Owen, J.; Omer Yaffe, O.; Kudisch, B.; Zhu, X.-Y. TrapStates in Lead Iodide Perovskites. J. Am. Chem. Soc., 2015137 (5), 2089–2096

  10. Zhu, H.†; Yang, Y†.; Hyeon-Deuk, K.;Califano, M.; Song, N.; Wang, Y.; Zhang, W.; Prezhdo, O. V.; Lian, T.,Auger-Assisted Electron Transfer from Photoexcited Semiconductor Quantum Dots. Nano Lett. 2014,14 (3), 1263-9

  11. Zhu, H.; Song, N.; Lian, T., Charging of Quantum Dots by Sulfide RedoxElectrolytes Reduces Electron Injection Efficiency in Quantum Dot SensitizedSolar Cells. J. Am. Chem. Soc. 2013, 135 (31), 11461-11464.

  12. Zhu, H.; Yang, Y.; Lian, T., Multiexciton Annihilation and Dissociation inQuantum Confined Semiconductor Nanocrystals. Acc. Chem. Res. 2013, 46(6), 1270-1279.

  13. Zhu, H.; Lian, T., Wavefunction engineering in quantum confinedsemiconductor nanoheterostructures for efficient charge separation and solarenergy conversion. (Invited review)Energy Environ. Sci. 2012, 5 (11), 9406-9418.

  14. Zhu, H.; Lian, T., Enhanced Multiple Exciton Dissociation from CdSe QuantumRods: the Effect of Nanocrystal Shape. J. Am. Chem. Soc. 2012, 134 (27),11289-11297

  15. Zhu, H.; Song, N.; Lv, H.; Hill, C. L.; Lian, T., Near unity quantum yieldof light-driven redox mediator reduction and efficient H2 generation usingcolloidal nanorod heterostructures. J. Am. Chem. Soc. 2012, 134 (28),11701-11708.

  16. Zhu, H.; Song, N.; Rodríguez-Córdoba, W.; Lian, T., Wave FunctionEngineering for Efficient Extraction of up to Nineteen Electrons from OneCdSe/CdS Quasi-Type II Quantum Dot. J. Am. Chem. Soc. 2012, 134 (9),4250-4257.

  17. Zhu, H.; Song, N.; Lian, T., Wave Function Engineering for Ultrafast ChargeSeparation and Slow Charge Recombination in Type II Core/Shell Quantum Dots. J.Am. Chem. Soc. 2011, 133 (22), 8762-8771.

  18. Zhu, H.; Song, N.; Lian, T., Controlling Charge Separation and RecombinationRates in CdSe/ZnS Type I Core−Shell Quantum Dots by Shell Thicknesses. J.Am. Chem. Soc. 2010, 132 (42), 15038-15045.


奖励荣誉

2016 Sturge Prize, International Conference on Dynamical Processes in Excited States of Solids

2014 NSF MRSEC Fellow, Columbia University

2013 Chinese Government Award for Outstanding Self-financed Students Abroad, Chinese Government

2013 Lester Award, Emory University

2012 Johnston Award, Emory University

2011 Quayle Fellowship, Emory University

2008 Outstanding Dissertation for Bachelor’s Degree, USTC

2007 Excellent Undergraduate Research Project, USTC

2006 Excellent Student Scholarship, USTC


发表论文

  1. Zhu, H. †; Wang, J.†; Gong, Z.; Kim, Y. D.; Hone, J.;Zhu, X. Y. Interfacial Charge Transfer Circumventing Momentum Mismatch atTwo-Dimensional van der Waals Heterojunctions. Nano Letters 2017, 17(6), 3591-3598.

  2. Zhu, H.†; Trinh, M.T.†; Wang, J.; Fu, Y.; Joshi, P; Miyata,K.; Jin, S.; Zhu, X.-Y. Organic Cations Might Not Be Essential to theRemarkable Properties of Band Edge Carriers in Lead Halide Perovskites. Advanced Materials 2017, 29 (1),1603072

  3. Zhu, H.†; Miyata, K†; Fu, Y; Wang, J; Joshi, P; Jin,S.; Zhu, X.-Y. Screening in Crystalline Liquids Protects Energetic Carriers inHybrid Perovskites. Science 2016 353, 1409-1413

    Highlighted by Perspective in Science, Science Daily, Compound Semiconductor,Silicon semiconductor, science bulletin

  4. Fu, Y.†; Zhu, H.† (Co-first authors); Stoumpos, C; Ding, Q; Wang, J; Kanatzidis,M; Zhu, X-Y. and Jin, S. Broad Wavelength Tunable Robust Lasing fromSingle-Crystal Nanowires of Cesium Lead Halide Perovskites (CsPbX3, X=Cl, Br,I). ACS Nano 2016 10 (8), 7963

  5. Niesner, D.†; Zhu, H.† (Co-first authors); Miyata, K.†; Evans, J. T.; Kudisch, J. B.; Joshi, P. P.; Miyata, K.; Trinh, M.T.; Marks, M; Zhu, X.-Y. Persistent Energetic Electrons in Methylammonium LeadIodide Perovskite Thin Films. J. Am. Chem. Soc., 2016, 138 (48), 15717

  6. Fu, Y.†; Zhu, H. (Co-first authors); Schrader, A. W.; Liang, D.; Ding, Q.;Joshi, P.; Hwang, L.; Zhu, X. Y.; Jin, S., Nanowire Lasers of FormamidiniumLead Halide Perovskites and Their Stabilized Alloys with Improved Stability. Nano Lett.201616 (2), 1000–1008

  7. Zhu, H.; Yang, Y.; Wu, K.; Lian, T.Charge Transfer Dynamics from Photoexcited Semiconductor Quantum Dots. Annu.Rev. Phys. Chem,2016(67) 259-281

  8. Zhu, H.†; Fu, Y.†; Meng, F.; Wu, X.;Gong, Z.; Ding, Q.; Trinh, M.; Jin, S.;Zhu, X.-Y. Lead Halide Perovskite Nanowire Lasers with Low Lasing Thresholds and High Q factors. Nature Materials 201514, 636–642.

    "HotPaper" (ranked 0.1%) by ESI. Highlighted by Nature Materials News andViews, C&EN, Science News, ScienceDaily, Phys.org, IEEE Spectrum, MRS Bulletin

  9. Wu, X.†; Trinh, T.†;Niesner, D.†; Zhu, H.† (Co-firstauthor); Norman, Z.; Owen, J.; Omer Yaffe, O.; Kudisch, B.; Zhu, X.-Y. TrapStates in Lead Iodide Perovskites. J. Am. Chem. Soc., 2015137 (5), 2089–2096

  10. Zhu, H.†; Yang, Y†.; Hyeon-Deuk, K.;Califano, M.; Song, N.; Wang, Y.; Zhang, W.; Prezhdo, O. V.; Lian, T.,Auger-Assisted Electron Transfer from Photoexcited Semiconductor Quantum Dots. Nano Lett. 2014,14 (3), 1263-9

  11. Zhu, H.; Song, N.; Lian, T., Charging of Quantum Dots by Sulfide RedoxElectrolytes Reduces Electron Injection Efficiency in Quantum Dot SensitizedSolar Cells. J. Am. Chem. Soc. 2013, 135 (31), 11461-11464.

  12. Zhu, H.; Yang, Y.; Lian, T., Multiexciton Annihilation and Dissociation inQuantum Confined Semiconductor Nanocrystals. Acc. Chem. Res. 2013, 46(6), 1270-1279.

  13. Zhu, H.; Lian, T., Wavefunction engineering in quantum confinedsemiconductor nanoheterostructures for efficient charge separation and solarenergy conversion. (Invited review)Energy Environ. Sci. 2012, 5 (11), 9406-9418.

  14. Zhu, H.; Lian, T., Enhanced Multiple Exciton Dissociation from CdSe QuantumRods: the Effect of Nanocrystal Shape. J. Am. Chem. Soc. 2012, 134 (27),11289-11297

  15. Zhu, H.; Song, N.; Lv, H.; Hill, C. L.; Lian, T., Near unity quantum yieldof light-driven redox mediator reduction and efficient H2 generation usingcolloidal nanorod heterostructures. J. Am. Chem. Soc. 2012, 134 (28),11701-11708.

  16. Zhu, H.; Song, N.; Rodríguez-Córdoba, W.; Lian, T., Wave FunctionEngineering for Efficient Extraction of up to Nineteen Electrons from OneCdSe/CdS Quasi-Type II Quantum Dot. J. Am. Chem. Soc. 2012, 134 (9),4250-4257.

  17. Zhu, H.; Song, N.; Lian, T., Wave Function Engineering for Ultrafast ChargeSeparation and Slow Charge Recombination in Type II Core/Shell Quantum Dots. J.Am. Chem. Soc. 2011, 133 (22), 8762-8771.

  18. Zhu, H.; Song, N.; Lian, T., Controlling Charge Separation and RecombinationRates in CdSe/ZnS Type I Core−Shell Quantum Dots by Shell Thicknesses. J.Am. Chem. Soc. 2010, 132 (42), 15038-15045.

 

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