个人信息
个人简介
个人简介
2003年获北京大学理学博士学位。2003-2007先后作为日本学术振兴会(JSPS)外国人特别研究员在日本筑波大学(University of Tsukuba)工作,及洪堡****在埃尔兰根大学(Friedrich-Alexander-University of Erlangen-Nürnberg)访问工作。2007-2012年先后作为副研究员在中科院化学所工作以及作为外国人研究员在日本筑波大学筑波前沿研究联盟中心工作。在J. Am. Chem. Soc., Angew. Chem. Int. Ed., Acc. Chem. Res., Chem. Soc. Rev., J. Mater. Chem. A等国际重要学术期刊发表论文80余篇,合作编写三部英文专著各一章节。2012年加入苏州大学,同年被评为江苏省****,2019年入选江苏省六大高峰人才项目。
研究领域
光伏材料(钙钛矿太阳能电池),电催化(制氢,合成氨,污水处理,高附加值小分子合成)
基本信息
冯莱
职称:教授
院部/部门:能源学院
学历:
学位:
毕业学校:
毕业专业:
联系方式
通讯地址:
邮政编码:
电子邮箱:fenglai@suda.edu.cn
联系电话:
传真号码:
办公地点:新能源大楼425
科学研究
科研团队
论文
Publications
2020
1. Q. Yuan, D. Han,Q. Yuan,X. Tang,S. Yi,D.-Y. Zhou,* L. Feng,* S8 Additive Enables CsPbI2Br Perovskite with
Reduced Defects and Improved Hydrophobicity for Inverted Solar Cells (Full Paper, Solar RRL, 2021, accepted.
2. D. Han,Q. Yuan,Z. Slanina,X. Tang,S. Yi,D.-Y. Zhou, F. Uhlik,* L. Feng,* Enhancing Built-In Electric Field
and Defect Passivationthrough Gradient Doping in Inverted CsPbI2Br Perovskite Solar Cells, Solar RRL, 2020, accepted,
DOI: 10.1002/solr..
3. S. Yi,D. Han,Q. Yuan,Q. Yang,Y. Yang,D.-Y. Zhou, L. Feng,*Redox-active Eu2O3nanoflakes as a buffer layer
for inverted CsPbI2Br perovskite solar cells with enhanced performance. J. Mater. Chem. C, 2020, 8, 13754-13761.
DOI: 10.1039/d0tc03345f.
4. Q. Yang, Y. Cui, Q. Li, J. Cai, D. Wang,* and L. Feng,*Nanosheet-Derived Ultrafine CoRuOx@NC Nanoparticles
with a Core@Shell Structure as Bifunctional Electrocatalysts for Electrochemical Water Splitting with High Current Densityor Low Power Input.ACS Sustainable Chem. Eng.2020, xx, xxxxhttps://dx.doi.org/10.1021/acssuschemeng.0c03410.5.M. Nie, H. Meng, C. Zhao, Y. Lu, J. Zhang, L. Feng,* C. Wang, T. Wang.*Crystallographic Evidence and SpinActivation for the Russian-Doll-Type Metallofullerene Sc4C2@C80.Chemical Communications,2020, xx, xxx,DOI: 10.1039/D0CC04496B.6.Y. Yang, D.-W. Han, Y. Yang, S.-W. Yi, Q. Yuan, D.-Y. Zhou, and L. Feng,*,Dopant free mixture of Spiro-OMeTADand PTAA with tunable wettability as hole transport layer enhancing performance of inverted CsPbI2Br perovskite solar cells,Org. Electronics,2020, xx, xxx,10.1016/j.orgel.2020.105873.7.Y. Yu, Z. Slanina, F. Wang, Y. Yang, Y. Lian,* F. Uhlik,* B. Xin, andL. Feng,* Ho2O@D3(85)-C92: HighlyStretched Cluster Dictated by a Giant Cageand Unexplored Isomerization.Inorg. Chem.2020,xx, xxxx.https://dx.doi.org/10.1021/acs.inorgchem.0c015128.Y. Yang, D.-W. Han, Y. Yang, S.-W. Yi, Q. Yuan, D.-Y. Zhou,* andL. Feng,* Redox-inactive samarium(III)acetylacetonate as dopant enabling cation substitution and interfacial passivation for efficient and stable CsPbI2Brperovskite solar cells.APL Mater.,2020,8, 071102.9.Q. Yang, P. Jin,* B. Liu, L. Zhao, J. Cai, Z. Wei, S. Zuo, J. Zhang andL. Feng*.Ultrafine carbon encapsulatedNiRu alloys as bifunctional electrocatalysts for boosting overall water splitting: morphological and electronicmodulation through minor Ru alloying.J. Mater. Chem. A,2020, 8, 9049–9057.10.Y. Wang, Y. Yang, D. Han, Q. Yang, Q. Yuan, H. Li, Y. Yang, D.-Y. Zhou,*L. Feng.* Amphoteric imidazoledoping induced large-grained perovskite with reduced defect density for high performance inverted solar cells.Solar Energy Materials and Solar Cells,2020,212,110553.11.Y. Wang, Y. Yang, F. Uhlik, Z. Slanina, D. Han, Q. Yang, Q. Yuan, Y. Yang, D.-Y. Zhou,*L. Feng.* Enhancingphotovoltaic performance of inverted perovskite solar cells via imidazole and benzoimidazole doping of PC61BM electrontransport layer.Organic Electronics2020, 78, 105573.20191.Q. Yuan, D. Han, S. Yi, D. Zhou,L. Feng,* Fluorinated fulleropyrrolidine as universal electron transport materialfor organic-inorganic and all-inorganic perovskite solar cells.Organic Electronics2019, 77, No. 105492.2.M.Nie,L. Yang,C.Zhao, H.Meng,L.Feng,*P. Jin,*C.Wang,* T.Wang.*Luminescent Single-Molecule
Magnet of Dimetallofullerene with Cage-Dependent Property.Nanoscale,2019, accepted.
3.H. Cong,A. Liu, Y. Hao,L. Feng,* Z. Slanina, F. Uhlik.*Ho2O@C84: Crystallographic Evidence Showing
Linear Metallic Oxide Cluster Encapsulated in IPR Fullerene Cage of D2d(51591)?C84.Inorg. Chem.2019, 58, 10905?10911.
4.L. Feng,*Y. Hao, A. Liu, Z. Slanina.*Trapping Metallic Oxide Clusters inside Fullerene Cages.
Acc. Chem. Res.2019, 52(7), 1802?1811.
5.M. Nie, J. Xiong, C. Zhao, H. Meng, K. Zhang, Y. Han, J. Li, B. Wang,L. Feng,* C. Wang,* and T. Wang.*
Luminescent single-molecule magnet of metallofullerene DyErScN@Ih-C80.Nano Res.2019, 12(7), 1727-1731.
https://doi.org/10.1007/s12274-019-2429-1.
6.D. Han, Y. Xin, Q. Yuan, Q. Yang, Y. Wang, Y. Yang, S. Yi, D. Zhou,L. Feng,* Y. Wang.Solution-Processed
Two-Dimensional Nb2O5(001) Nanosheets for Inverted CsPbI2Br Perovskite Solar Cells: Interfacial and Diffusion Engineering.
Solar RRL,2019,3(7), **. doi:10.1002/solr..
7.X. Zhang, J. Ji, Q. Yang, L. Zhao, Q. Yuan, Y. Hao, P. Jin,*L. Feng,*Phosphate Doped Ultrathin FeP Nanosheets
as EfficientElectrocatalyst for Hydrogen Evolution Reaction in Acid Media.ChemCatChem,2019,11, 2484-2489.
8.Y. Wang, Y. Hu, D. Han, Q. Yuan, T. Cao, N. Chen, D. Zhou,* H. Cong,*L. Feng.* Ammonia-treated
graphene oxide and PEDOT:PSS as hole transport layer for high-performance perovskite solar cells with enhanced stability.
Organic Electronics70 (2019) 63–70.
9.A. Liu, M. Nie,Y. Hao,Y. Yang,T. Wang,*Z. Slanina,*H. Cong,*L. Feng.* C. Wang, F. Uhlik. Ho2O@C74:
Ho2O Cluster Expands within a Small Non-IPR Fullerene Cage of C2(13333)?C74.Inorg. Chem.2019, 58, 4774?4781.
20181.C. Wang, P. Liu, H. Ju, Q. Yuan, D. Han, Y. Wang, D. Zhou*andL. Feng.*A Simple Perylene Derivative as a
Solution?Processable Cathode Interlayer for Perovskite Solar Cells with Enhanced Efficiency and Stability.
ACS Appl. Mater. Interfaces2018, 10, 15933-15942.
2.P. Liu, C. Wang, D. Zhou, Q. Yuan, Y. Wang, Y. Hu, D. Han, andL. Feng*. WOx@PEDOT Core?Shell Nanorods:
Hybrid Hole-Transporting Materials for Efficient and Stable Perovskite Solar Cells.ACS Appl. Energy Mater.2018,
1, 1742-1752. DOI: 10.1021/acsaem.8b00277.
3.X. Zhang, Y. Wang, R. Morales-Martínez, J. Zhong, C. de Graaf, A. Rodríguez-Fortea, J. M. Poblet, L. Echegoyen,*
L. Feng,*, and N. Chen*. U2@Ih(7)?C80: Crystallographic Characterization of a Long-Sought Dimetallic Actinide
Endohedral Fullerene.J. Am. Chem. Soc.2018, 140, 3907?3915.
4.C. Li, X. Gao, H. Yao, H. Huang, R. Cui, X. Guo,L. Zhang, B. Liu, B. Xu, W. Shi, J. Dong,L. Feng,*X. Gao,*
B. Sun.*Highly delocalized endohedral metal was detected in Gd@C2v(9)-C82when co-crystallized with α-S8.Nano Res.
2018,11, 2277-2284.
5. X. Zhang,aW. Li,aL. Feng,aX. Chen, A. Hansen, S. Grimme, S. Fortier, D.-C. Sergentu, T. J. Duignan, J. Autschbach,
S. Wang, Y. Wang, G. Velkos, A. A. Popov, N. Aghdassi, S. Duhm, X. Li, J. Li, L. Echegoyen, W.H.E. Schwarz, N. Chen.
A diuranium carbide cluster stabilized inside a C80fullerene cage. Nat. Commun.2018, 9, 2753.
6. Y. Hao, X. Zhang, Q. Yang, K. Chen, J. Guo,D. Zhou andL. Feng.*Z. Slanina.*Highly porous defective
carbons derived from seaweed biomass as efficient electrocatalysts for oxygen reduction in both alkaline and acidic media.
Carbon,2018, 137,93-103.
2017
1.H. Cong,D. Han,B. Sun,D. Zhou,C. Wang,P. Liu,andL. Feng.*Facile Approach to Preparing a Vanadium Oxide
Hydrate Layer as a Hole-Transport Layer for High-Performance Polymer Solar Cells.ACS Appl. Mater. Interfaces2017, 9, 18087?18094.
2.Y. Wang, R. Morales-Martínez, X. Zhang, W. Yang, Y. Wang, A. Rodriguez-Fortea, J. M. Poblet,*L. Feng,*
S. Wang,* and N. Chen.*Unique Four-electron Metal-to-Cage Charge Transfer of Th to a C82Fullerene Cage: Complete
Structural Characterization of Th@C3v(8)-C82.J. Am. Chem. Soc.,2017,139, 5110-5116.
3.B. Sun, D. Zhou, C. Wang, P. Liu, Y. Hao, D. Han,L. Feng,*Y. Zhou. Copper(II) chloride doped graphene oxides as
efficient hole transport layer for high-performance polymer solar cells.Organic Electronics,2017, 44, 176-182.
4.Y. Wang,Q. Tang,L. Feng,* and N. Chen*Sc2C2@D3h(14246)?C74: A Missing Piece of the Clusterfullerene Puzzle.
Inorg. Chem.2017, 56, 1974?1980.
5.K. Chen, Y. Hao, M. Zhang, D. Zhou, Y. Cao, Y. Wang,L. Feng.* Nitrogen, sulfur and phosphorus-codoped carbon with tunable
nanostructure as efficient electrocatalyst for the oxygen reduction reaction.RSC Adv.2017, 7, 5782-5789.
2016
1.Hao, Y.; Tang, Q.; Li, X.; Zhang, M.; Wan, Y.;Feng, L.;*Chen, N.;* Slanina, Z.;* Adamowicz, L.; Uhlik, F.. Isomeric Sc2O@C78
Related by a Single-Step Stone-Wales Transformation: Key Links in an Unprecedented Fullerene Formation Pathway.Inorg. Chem.,2016, 55, 11354-11361.
2.M. Tang,B. Sun,D. Zhou, Z. Gu, K. Chen,J. Guo,L. Feng,* Y. Zhou.Broad-band plasmonic Cu-Au bimetallic nanoparticles for organic bulk heterojunction solar cells.Organic Electronics,2016, 38,213-221.
3.M. Rudolf,L. Feng,* Z. Slanina, W. Wang, S. Nagase, T. Akasaka,* and D. M. Guldi.*Strong electronic coupling and electron transfer in a Ce2@Ih-C80–H2P electron donor acceptor conjugate.Nanoscale,2016, 8, 13257–13262.
4.Z. Gu, D. Zhou, B. Sun, M. Tang, K. Chen,L. Feng,* Y. Zhou. Potassium-neutralized perylene derivative (K4PTC) and rGO-K4PTC composite as effective and inexpensive electron transport layers for polymer solar cells.Organic Electronics,2016, 37, 47-54.
5.L. Feng,* M. Zhang,Y. Hao,Z. Gu, N. Chen,*Z. Slanina,* F. Uhlík.Endohedrally Stabilized C70 Isomer with Fused Pentagons Characterized by Crystallography.Dalton Transactions,2016,45, 8142 – 8148.
6.Tang, Q.; Abella, L.; Hao, Y.; Li, X.; Wan, Y.; Rodriguez F. A.; Poblet, J. M.;Feng, L.*; Chen, N.,*"Sc2O@C3v(8)-C82: A Missing Isomer of Sc2O@C82",Inorg. Chem.,2016, 55, 1926-1933.
2015
1.Tang, Q.; Abella, L.; Hao, Y.; Li, X.; Wan, Y.; Rodriguez F. A.; Poblet, J. M.;Feng, L.*; Chen, N., "Sc2O@C2v(5)-C80: Dimetallic Oxide Cluster Inside a C80 Fullerene Cage",Inorg. Chem.,2015, 54, 9845-9852.
2.T.Yang,Y.Hao,L.Abella, Q.Tang, X.Li, Y.Wan, A.Rodríguez-Fortea, J.M. Poblet,*L.Feng*and Ning Chen*.Sc2O@Td(19151)-C76:Hindered Cluster MotionInside a Tetrahedral Carbon CageProbed byCrystallographicand Computational Studies.Chem. Eur. J.2015,21,11110-11117.
3.H.Cong,M.Zhang,Y. Hao,K.Chen,Y.Zhao,*L. Feng*. Highly Selective CO2Capture by Nitrogen Enriched PorousCarbons.Carbon,2015, 92, 297-304.
4.M.Rudolf, O.Trukhina, J.Perles,L.Feng,T.Akasaka,*T.Torres* and D.M. Guldi.* Taming C60fullerene: tuning intramolecular photoinduced electron transfer process with subphthalocyanines.Chem. Sci.2015, 6, 4141-4147.
5.Y.Liang, Y. Hao, X.Liu,L.Feng,* Q.Tang,N.Chen,M.Tang,B.Sun,Y.Zhou,*B.Song. Efficiency Enhancement from [60]Fulleropyrrolidine-Based Polymer Solar Cells through N-Substitution Manipulation.Carbon,2015,92,182-192.
6.Y.Hao,L. Feng,*W. Xu,Z. Gu,Z. Hu,Z. Shi,*Z. Slanina,*F. Uhlík.Sm@C2v(19138)-C76: ANon-IPRCageStabilized by aDivalentMetalIon.Inorg. Chem.,2015,54,4243-4248.
7.Z. Hu,Y. Hao,Z. Slanina, Z. Gu,Z. Shi,*,F. Uhlík,Y. Zhao,andL. Feng*. Popular C82 Fullerene Cage Encapsulating a Divalent Metal Ion Sm2+: Structure and Electrochemistry.Inorg. Chem.2015,54, 2103-2108.
8.L. Feng,*M. Rudolf,O. Trukhina,Z. Slanina,F. Uhlik,X. Lu,T. Torres,*D. M. Guldi*and T. Akasaka*Tuning intramolecular electron and energy transfer processes in novel conjugates of La2@C80 and electron accepting subphthalocyanines.Chem. Commun.,2015,51, 330—333.
2014
1.M. Zhang,Y. Hao,X. Li,L. Feng,*T. Yang,Y. Wan,N. Chen,*Z. Slanina,* F. Uhlíkand H. Cong*. Facile Synthesis of an Extensive Family of Sc2O@C2n (n = 35?47) and Chemical Insight into the Smallest Member of Sc2O@C2(7892)?C70.J. Phys. Chem. C2014,118, 28883?28889.
2.Z.Slanina, F.Uhlik, S-L.Lee,B-C. Wang,L.Adamowicz,M. Suzuki, M. Haranaka.L.Feng,X.Lu,S.Nagase, T. Akasaka,Towards Relative Populations of Non-IsomericMetallofullerenes: La@C76(Td) vs.La2@C76(Cs,17490).Fullerenes, Nanotubes and Carbon Nanostructures,2014,22, 299-306.
3.Z.Slanina, F.Uhlik, S-L.Lee, L.Adamowicz,L.Feng,M.O. Ishitsuka, T.Tsuchiya, X.Zhao,S.Nagase,Sm@C74: Computed Relative Isomeric Populations.Fullerenes, Nanotubes and Carbon Nanostructures,2014, 22, 235-242.
4.Y. Liang,L. Feng,*Dual Electron Acceptor/Electron Donor Character of Endohedral Nitride Clusterfullerenes.Fullerenes, Nanotubes and Carbon Nanostructures,2014, 22, 227-234.
2013
1.T. Akasaka, T. Tsuchiya,L. Feng,Y. Takano, S. Nagase,New Vistas inFullereneChemistry: Organosulfur Compounds Expand the Performance Of Carbon Nanomaterials.PHOSPHORUS SULFUR AND SILICON AND THE RELATED ELEMENTS,2013,188, 317-321.
2.W. Xu,Y. Hao, F. Uhlik, Z. Shi,*Z. Slanina*andL. Feng,*Structural and electrochemical studies of Sm@D3h-C74reveal a weak metal–cage interaction and a small band gap species.Nanoscale,2013,5, 10409-10413.
3.M. Rudolf,L. Feng,* Z. Slanina, T. Akasaka,* S. Nagase, and D. M. Guldi,*A Metallofullerene Electron Donor that Powers an Efficient Spin Flip in a Linear Electron Donor–Acceptor Conjugate.J. Am. Chem. Soc.,2013,135,11165–11174.
4.Y. Takano, C. Schubert, N. Mizorogi,L. Feng, A. Iwano, M. Katayama, M. á. Herranz, D. M. Guldi, N. Martín, S. Nagase, T. Akasaka,Intramolecularversusintermolecular electronic interactions between [5,6]-open and [6,6]-closed C60adducts with exTTF.Chem. Sci., 2013,4, 3166-3171.
5.Y. Feng, T. Wang,* J. Wu,L. Feng,* J. Xiang, Y. Ma, Z. Zhang, L. Jiang, C. Shu and C. Wang,*Structural and electronic studies of metal carbide clusterfullerene Sc2C2@Cs–C72.Nanoscale,2013,5, 6704-6707.
6.W. Xu,L. Feng(same contributor),*M. Calvaresi, J. Liu,B. Niu, Z. Shi,* Y, Lian,F. Zerbetto,*An Experimentally Observed Trimetallofullerene Sm3@Ih-C80: Encapsulation of Three Metal Atoms in a Cage withoutaNonmetallic Mediator.J.Am.Chem.Soc.2013,135, 4187-4190.
7.L. Feng,* M. Suzuki, N. Mizorogi, X. Lu, M. Yamada, T. Akasaka,* S. Nagase,* Mapping the Metal Positions inside Spherical C80Cages: Crystallographic and Theoretical studies of Ce2@D5h-C80and Ce2@Ih-C80.Chem. Eur. J.2013,19,988-993.
2012
45.W. Xu, B. Niu, Z. Shi,* Y, Lian,*L. Feng,* Sm@C2v(3)-C80: Site-hopping motion of endohedral Sm atom and metal-induced effect on redox profile.Nanoscale2012,4, 6876-6879.
46.W. Xu, B. Niu,L. Feng,* Z. Shi,* Y, Lian,*Access to an Unexplored Chiral C82Cage by Encaging a Divalent Metal: Structural Elucidation and Electrochemical Studies of Sm@C2(5)-C82.Chem.Eur. J.2012,18, 14246-14249.
47.X. Lu,L. Feng, T. Akasaka, S. Nagase, Current status and future developments of endohedral Metallofullerenes,Chem. Soc. Rev.,2012,41,7723-7760.
48.L. Feng, M. Rudolf,S. Wolfrum, A. Troeger, Z. Slanina,T. Akasaka,*S. Nagase, N. Martín,T. Ameri,C. J. Brabec, D. M. Guldi.*A Paradigmatic Change: Linking Fullerenes to Electron Acceptors,J. Am. Chem. Soc.2012,134, 12190-12197.
49.Rudolf,M.;Wolfrum, S.;Guldi,D.M.;*Feng, L.;Tsuchiya,T.;Akasaka,T.;Echegoyen, L.;EndohedralMetallofullerenes –FilledFullereneDerivatives towardsMultifunctionalReactionCenterMimics(Review).Chem. Eur. J.2012, 18,5136-5148.
50.Feng, L.;Radhakrishnan, S. G.;Mizorogi, N.;Slanina,Z.;Tsuchiya,T.;Akasaka, T.*;Nagase,S.;Martín,N.;Guldi,D.M.*Synthesis andCharge-TransferChemistryofLa2@Ih-C80/ Sc3N@Ih-C80- Zinc Porphyrin Conjugates: Impact of Endohedral Cluster,J.Am.Chem.Soc.2011,133, 7608-7618.
51.Feng, L.;Slanina,Z.; Sato,S.;Yoza,K.;Tsuchiya,T.;Mizorogi, N.;Akasaka, T.*;Nagase,S.*;Martín,N.;Guldi,D.M.Covalently Linked Porphyrin-La@C82Hybrids: Structural Elucidation and Investigation of Intramolecular Interactions,Angew. Chem. Int. Ed.2011,50, 5909-5912.
52.Xu, W.;Feng, L.; Wu, Y.; Wang, T.; Wu, J.; Xiang, J.; Li, B.; Jiang, L.; Shu, C.; Wang, C. Construction and Photophysics Study of Supramolecular Complexes Composed of Fullerene-Trispyridylporphyrin Dyads and Zinc Porphyrin,Physical Chemistry Chemical Physics2011,13, 428-433.
53.Wang, T.;Feng, L.; Wu, J.; Xu, W.; Xiang, J.; Tan, K.; Ma, Y.; Zheng, J.; Jiang, L.; Lu, X.; Shu, C.; Wang, C.*Planar Quinary-Cluster inside a Fullerene Cage : Synthesis and Structural Characterizations of Sc3NC@C80-Ih,J.Am.Chem.Soc.2010,132, 16362-16364.
54.Guldi, D. M.*;Feng, L.; Radhakrishnan, S. G.; Nikawa, H.; Yamada, M.; Mizorogi, N.; Tsuchiya, T.; Akasaka, T.; Nagase, S.; Herranz, á.; Martín, N.A Molecular Ce2@Ih-C80Switch—Unprecedented Oxidative Pathway in Photoinduced Charge Transfer Reactivity,J.Am.Chem.Soc.2010,132,9078-9086.
55.L. Feng,T. Akasaka, and S. Nagase,Endohedralsin"Carbon Nanotubes and Related Structures",D. M. Guldi and N. MartinEds.; Wiley-VCHVerlag GmbH & Co. KGaA, Weinheim, 2010,455-490.
56.Lu X, Nikawa T.,Feng L., Tsuchiya, T.; Maeda, Y.; Akasaka, T.; Mizorogi, N.; Slanina, Z.; Nagase, S.Location of the Yttrium Atom in Y@C82and Its Influence on the Reactivity of Cage Carbons,J.Am.Chem.Soc.2009,131, 12066-12067.
57.Zhang E., Shu C.,Feng L.*,Wang C.Preparation and characterization of two new water-soluble endohedral metallofullerenes as magnetic resonance imaging contrast agents,J.Phys.Chem.B2007,111,14223.
58.Feng, L.;Tsuchiya, T.; Wakahara, T.; Nakahodo, T.; Piao, Q.; Maeda, Y.; Lian, Y.; Akasaka, T.; Kato, T.; Yoza, K.; Horn, E.; Mizoroki, N.; Nagase, S.Synthesis and Characterization of a Bisadduct of La@C82,J.Am.Chem.Soc.2006, 128, 5990-5991.
59.Feng, L.; Wakahara, T.; Nakahodo, T.; Tsuchiya, T.; Piao, Q.; Maeda, Y.; Lian, Y.; Akasaka, T.; Horn, E.; Yoza, K.; Kato, T.; Mizoroki, N.; Nagase, S.The Bingel monoadducts of La@C82: synthesis, characterization and electrochemistry,Chem.A Eur.J.2006,12, 5578-5586.
60.Feng, L.; Nakahodo, T.; Wakahara, T.; Tsuchiya, T.; Maeda, Y.; Akasaka, T.; Kato, T.; Horn, E.; Yoza, K.; Mizoroki, N.; Nagase, S.A Singly-Bonded Derivative of Endohedral Metallofullerene: La@C82CBr(COOC2H5)2,J.Am.Chem.Soc.2005, 127 (49), 17136-17137.
61.Feng, L.;Wakahara, T.; Tsuchiya, T.; Maeda, Y.; Lian, Y.; Akasaka, T.; Mizorogi, N.; Kobayashi, K.; Nagase, S.; Kadish, K. M.Structural characterization of Y@C82,Chemical Physics Letters2005, 405, 274-277.
62.Yamada, M.;Feng, L.;Wakahara,T.; Tsuchiya, T.; Maeda, Y.; Lian, Y.; Kako, M.; Akasaka, T.; Kato, T.; Kobayashi, K.; Nagase, S.Synthesis and characterization of exohedrally silylated M@C82(M=Y and La),Journal of Physical Chemistry B2005, 109 (13), 6049-6051.
63.Maeda, Y.; Miyashita, J.; Hasegawa, T.; Wakahara, T.; Tsuchiya, T.;Feng, L.;Lian, Y.; Akasaka, T.; Kobayashi, K.; Nagase, S.; Kako, M.; Yamamoto, K.; Kadish, K. M.Chemical reactivities of the cation and anion of M@C82(M=Y, La and Ce),Journal of the American Chemical Society2005, 127 (7), 2143-2146.
64.Feng, L.;Lu, X.; He, X.; Shi, Z.; Gu, Z.Reactions of endohedral metallofullerenes withazomethine ylides: an efficient route toward metallofullerene-pyrrolidine,Inorganic Chemistry Communications2004, 7(9), 1010-1013.
65.Li, H.;Feng, L.;Guan, L.; Shi, Z.; Gu, Z.Synthesis and purification of single-walled carbon nanotubes in the cottonlike soot,Solid State Communications2004, 132 (3-4), 219-224.
66.Lu, X.; He, X.;Feng, L.;Shi, Z.; Gu, Z.Synthesis of pyrrolidine ring-fused metallofullerene derivatives,Tetrahedron2004, 60 (16), 3713-3716.
67.Feng,L.;Li, H.; Li, F.; Shi, Z.; Gu,Z.Functionalization of carbon nanotubes with amphiphilic molecules and their Langmuir-Blodgett films,Carbon2003, 41 (12), 2385-2391..
68.Feng, L.;Zhang, X.; Wang, J.; Gu, Z.Chemical Modification of Tb@C82by Copper (I) Catalyzed Cycloadditions,Chemistry of Materials2002, 14, 4021-4022.
69.Feng, L.;Sun, B.; He, X.; Gu, Z.Isolation and Spectroscopic Study of a Series of Monoterbium Endohedral Metallofullerenes,Fullerenes, Nanotubes and Carbon Nanostructures2002, 10 (4), 353-361.
70.Sun, B.;Feng,L.;Shi, Z.; Gu, Z.Improved Extraction of Metallofullerenes with DMF at High Temperature,Carbon2002, 40, 1591-1595.
71.Feng,L.;Xu, J.; Shi, Z.; He, X.; Gu, Z.Isolation and Characterization of the Endohedral Metallofullerene Tb3N@C80,Chemical Journal of Chinese Universities(in Chinese) 2002, 23(6), 996-998.
授权专利6件
(1)名称:一种内嵌钪氧化物团簇富勒烯的制备方法;申请人:冯莱,谌宁,张美荣,郝亚娟,杨婷; 专利号(已授权):3.1。
(2)名称:一种N–苯基富勒烯吡咯烷衍生物及其制备方法和用途;申请人:冯莱,周祎,梁雨岚,刘晓东,郝亚娟;专利号(已授权):1.2。
(3)名称:具有核壳结构的Cu@Cu–Au纳 米颗粒及其制备方法和应用;申请人:冯莱,汤铭留,周东营; 专利号(已授权):5.6。
(4)名称:一种还原氧化石墨烯–3,4,9,10一芘四甲酸钾复合物及其制备方法和用途;申请人:冯莱,顾正艮,周东营;专利号(已授权):5.0。
(5)名称:一种钒氧化物阳极缓冲层及其制备方法和应用;申请人:冯莱,韩东蔚,周东营,孙兵兵; 专利号(已授权):5.4。
(6)名称:一种基于氯化铜–氧化石墨烯复合物的阳极缓冲层材料及其制备方法和用途;申请人:周东营,孙兵兵,冯莱;专利号(已授权):6.6。
荣誉奖励
1、日本JSPS奖学金,2003-2005
2、德国洪堡奖学金,2006-2007
3、江苏省****,2012-2015
开授课程
本科生公选课:能源与可持续发展
本科生必修课:专业英语-新能源
本科生选修课:光伏技术原理与应用
招生信息
诚聘博士后,年薪10万+。
拟研究方向:太阳能电池材料或器件制备与性能表征。
要求:物理或化学背景,热衷科研。
科研成果(旧版)
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苏州大学能源学院导师教师师资介绍简介-冯莱
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