Position:Professor in School of Energy, Soochow University

E-mail:fenglai@suda.edu.cn

Homepage: http://web.suda.edu.cn/fenglai/index.html

Education:

1993-1997Bachelor inFineChemical Engineering,Dalian University of Technology;

1997-2000MasterinFineChemical Engineering,Dalian University of Technology;

2000-2003PhD inInorganicChemistry, with Prof.Z. Gu,PekingUniversity;

2003-2005JSPS fellowwith Prof.T. Akasaka, University ofTsukuba;

2006-2007 Humboldt fellow with Prof. A. Hirsch, University of Erlangen and Nurnberg;

2007-2008 Associate researcher in Chinese Academic Institute of Chemistry;

2008-2012 Foreigner researcher in University of Tsukuba;

2012- Professor in Soochow University andSpecially appointed professor in Jiangsu province.

Current researchinterests:

Inorganic perovskite solar cells; electrocatalysis for energy materials (i.e., H₂, NH₃) and industrial chemicals, fullerene-based materials.

Publications:

As firstauthoror corresponding author

1. D. Han,Q. Yuan,Z. Slanina,X. Tang,S. Yi,D.-Y. Zhou, F. Uhlik,*L. Feng,* EnhancingBuilt-In Electric Field and Defect Passivationthrough Gradient Doping in Inverted CsPbI₂Br Perovskite Solar Cells, Enhancing Built-In Electric Field and Defect Passivation through Gradient Doping in Inverted CsPbI₂Br Perovskite Solar Cells.Solar RRL,2020,4, 2000629, DOI: 10.1002/solr.202000629. (IF=7.5)

2. 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. (SCI一区；IF=7.1)

3. Q. Yang, Y. Cui, Q. Li, J. Cai, D. Wang,* andL. Feng,*Nanosheet-Derived Ultrafine CoRuOx@NC Nanoparticles with a Core@Shell Structure as Bifunctional Electrocatalysts for Electrochemical Water Splitting with High Current Density or Low Power Input.ACS Sustainable Chem. Eng.2020,8, 12089-12099.DOI: 10.1021/acssuschemeng.0c03410. (SCI一区；IF=7.6)

4. M. Nie, H. Meng, C. Zhao, Y. Lu, J. Zhang,L. Feng,* C. Wang, T. Wang.*Crystallographic Evidence and Spin Activation for the Russian-Doll-Type Metallofullerene Sc₄C₂@C₈₀.Chem. Commun.,2020,56, 10879-10882. DOI: 10.1039/D0CC04496b.(SCI二区；IF=6.0)

5. Y. Yang, D.-W. Han, Y. Yang, S.-W. Yi, Q. Yuan, D.-Y. Zhou, andL. Feng,*,Dopant free mixture of Spiro-OMeTAD and PTAA with tunable wettability as hole transport layer enhancing performance of inverted CsPbI₂Br perovskite solar cells,Org. Electronics,2020,86, 105873. DOI:10.1016/j.orgel.2020.105873. (SCI二区；IF=3.4)

6. Y. Yu, Z. Slanina, F. Wang, Y. Yang, Y. Lian,* F. Uhlik,* B. Xin, andL. Feng,* Ho₂O@D₃(85)-C₉₂: Highly Stretched Cluster Dictated by a Giant Cage and Unexplored Isomerization.Inorg. Chem.,2020,59, 11020-11025.DOI: 10.1021/acs.inorgchem.0c01512. (SCI二区；IF=4.8)

7. 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 CsPbI₂Br perovskite solar cells.APL Mater.,2020,8, 071102.(SCI二区；IF=3.8)

8. Q. Yang, P. Jin,* B. Liu, L. Zhao, J. Cai, Z. Wei, S. Zuo, J. Zhang andL. Feng*.Ultrafine carbon encapsulated NiRu alloys as bifunctional electrocatalysts for boosting overall water splitting: morphological and electronic modulation through minor Ru alloying.J. Mater. Chem. A,2020,8, 9049–9057.(SCI一区；IF=11.3)

9. Y. Wang, Y. Yang, D. Han, Q. Yang, Q. Yuan, H. Li, Y. Yang, D.-Y. Zhou,^*L. Feng.* Amphoteric imidazole doping induced large-grained perovskite with reduced defect density for high performance inverted solar cells.Solar Energy Materials and Solar Cells,2020,212,110553.(SCI一区；IF=7.0)

10. Y. Wang, Y. Yang, F. Uhlik, Z. Slanina, D. Han, Q. Yang, Q. Yuan, Y. Yang, D.-Y. Zhou,^*L. Feng.* Enhancing photovoltaic performance of inverted perovskite solar cells via imidazole and benzoimidazole doping of PC₆₁BM electron transport layer.Org. Electronics,2020,78, 105573.(SCI二区；IF=3.4)

11. Q. Yuan, D. Han, S. Yi, D. Zhou,L. Feng,* Fluorinated fulleropyrrolidine as universal electron transport material for organic-inorganic and all-inorganic perovskite solar cells.Org. Electronics,2019,77, No. 105492.(SCI二区；IF=3.8)

12. 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,2019,11, 18612-18618.(SCI一区；IF=6.9)

13. 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 D_2d(51591)C₈₄.Inorg. Chem.2019,58, 10905−10911. (SCI二区；IF=4.8)

14. L. Feng,*Y. Hao, A. Liu, Z. Slanina.*Trapping Metallic Oxide Clusters inside Fullerene Cages.Acc. Chem. Res.2019,52, 1802−1811. (SCI一区；IF=20.8)

15. 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@I_h-C₈₀.Nano Res.,2019,12, 1727-1731.DOI: 10.1007/s12274-019-2429-1.(SCI一区；IF=8.2)

16. 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, 1900091. DOI:10.1002/solr.201900091.(IF=7.5)

17. 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.(SCI二区；IF=4.8)

18. 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.Org. Electronics,2019,70, 63–70.(SCI二区；IF=3.4)

19. 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.(SCI二区；IF=4.8)

20. X. Zhang,^aW. Li,^aL. Feng,^a(Same contributor) X. 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.(SCI二区；IF=12.1)

21. 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.(SCI一区；IF=8.8)

22. 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. Interfaces,2018,10, 15933-15942.(SCI一区；IF=9.1)

23. P. Liu, C. Wang, D. Zhou, Q. Yuan, Y. Wang, Y. Hu, D. Han, andL. Feng*. WO_x@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. (IF=4.2)

24. 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@I_h(7)C₈₀: Crystallographic Characterization of a Long-Sought Dimetallic Actinide Endohedral Fullerene.J. Am. Chem. Soc.,2018,140, 3907−3915. (SCI一区；IF=14.3)

25. 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@C_2v(9)-C₈₂when co-crystallized with α-S₈.Nano Res.,2018,11, 2277-2284. (SCI一区；IF=8.2)

26. 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. Interfaces,2017,9, 18087−18094.(SCI一区；IF=9.1)

27. 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@C_3v(8)-C₈₂.J. Am. Chem. Soc.,2017,139, 5110-5116.(SCI一区；IF=14.3)

28. 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.Org. Electronics,2017,44, 176-182.(SCI二区；IF=3.4)

29. Y. Wang,Q. Tang,L. Feng,* and N. Chen*Sc₂C₂@D_3h(14246)C₇₄: A Missing Piece of the Clusterfullerene Puzzle.Inorg. Chem.,2017,56, 1974−1980.(SCI二区；IF=4.8)

30. 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.(SCI三区；IF=3.1)

31. Y. Hao, Q. Tang, X. Li, M. Zhang, Y. Wan,L. Feng,*N. Chen,* Z. Slanina,* L. Adamowicz, F, Uhlik. Isomeric Sc₂O@C₇₈Related by a Single-Step Stone-Wales Transformation: Key Links in an Unprecedented Fullerene Formation Pathway.Inorg. Chem.,2016,55, 11354-11361. (SCI二区；IF=4.8)

32. M. Tang, B. Sun, D. Zhou, Z. Gu, K. Chen, J. Guo,L. Feng,* Y. Zhou.Broad-band pla**onic Cu-Au bimetallic nanoparticles for organic bulk heterojunction solar cells.Org. Electronics,2016,38, 213-221. (SCI二区；IF=3.4)

33. 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@I_h-C₈₀–H₂P electron donor acceptor conjugate.Nanoscale,2016,8, 13257–13262.(SCI一区；IF=6.9)

34. 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.Org. Electronics,2016,37, 47-54. (SCI二区；IF=3.4)

35. L. Feng,* M. Zhang,Y. Hao,Z. Gu, N. Chen,*Z. Slanina,* F. Uhlík.Endohedrally Stabilized C₇₀Isomer with Fused Pentagons Characterized by Crystallography.Dalton Transactions,2016,45, 8142 – 8148.(SCI二区；IF=4.2)

36. Q.Tang, L.Abella, Y.Hao, X.Li, Y.Wan, F. A.Rodriguez,J. M.Poblet,L.Feng,* N.Chen,*Sc₂O@C_3v(8)-C₈₂: A Missing Isomer of Sc₂O@C₈₂,Inorg. Chem.,2016,55, 1926-1933. (SCI二区；IF=4.8)

37. Q.Tang, L.Abella, Y.Hao, X.Li, Y.Wan, F. A.Rodriguez,J. M.Poblet,L.Feng,* N.Chen,*Sc₂O@C_2v(5)-C₈₀: Dimetallic Oxide Cluster Inside a C₈₀Fullerene Cage,Inorg. Chem.,2015,54, 9845-9852. (SCI二区；IF=4.8)

38. T. Yang,Y. Hao,L. Abella, Q. Tang, X. Li, Y. Wan, A. Rodríguez-Fortea, J. M. Poblet,^*L. Feng^*and Ning Chen^*.Sc₂O@T_d(19151)-C₇₆:Hindered Cluster Motion Inside a Tetrahedral Carbon Cage Probed by Crystallographic and Computational Studies.Chem. Eur. J.,2015,21,11110-11117.(SCI二区；IF=4.9)

39. H. Cong, M. Zhang,Y. Hao,K. Chen,Y. Zhao,*L. Feng*. Highly Selective CO₂Capture by Nitrogen Enriched PorousCarbons.Carbon,2015,92, 297-304.(SCI一区；IF=8.8)

40. 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. (SCI一区；IF=8.8)

41. Y. Hao,L. Feng,*W. Xu,Z. Gu,Z. Hu,Z. Shi,*Z. Slanina,*F. Uhlík. Sm@C_2v(19138)-C₇₆: A Non-IPR Cage Stabilized by a Divalent Metal Ion.Inorg. Chem.,2015,54,4243-4248.(SCI二区；IF=4.8)

42. 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.(SCI二区；IF=4.8)

43. 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@C₈₀and electron accepting subphthalocyanines.Chem. Commun.,2015,51, 330-333.(SCI二区；IF=6.0)

44. 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@C_2n(n = 35−47) and Chemical Insight into the Smallest Member of Sc₂O@C₂(7892)−C₇₀.J. Phys. Chem. C,2014,118, 28883−28889.(SCI二区；IF=4.2)

45. Y. Liang,L. Feng,*Dual Electron Acceptor/Electron Donor Character of Endohedral Nitride Clusterfullerenes.Fullerenes, Nanotubes and Carbon Nanostructures,2014,22, 227-234.(SCI四区；IF=1.6)

46. W. Xu,Y. Hao, F. Uhlik, Z. Shi,*Z. Slanina*andL. Feng,*Structural and electrochemical studies of Sm@D_3h-C₇₄reveal a weak metal–cage interaction and a **all band gap species.Nanoscale,2013,5, 10409-10413.(SCI一区；IF=6.9)

47. 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.(SCI一区；IF=14.3)

48. 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@C_s–C₇₂.Nanoscale,2013,5, 6704-6707.(SCI一区；IF=6.9)

49. W. Xu,L. Feng(same contributor),*M. Calvaresi, J. Liu,B. Niu, Z. Shi,* Y, Lian,F. Zerbetto,*An Experimentally Observed Trimetallofullerene Sm₃@I_h-C₈₀: Encapsulation of Three Metal Atoms in a Cage withoutaNonmetallic Mediator.J.Am.Chem.Soc.,2013,135, 4187-4190.(SCI一区；IF=14.3)

50. 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@D_5h-C₈₀and Ce₂@I_h-C₈₀.Chem. Eur. J.,2013,19,988-993. (SCI二区；IF=4.9)

51. W. Xu, B. Niu, Z. Shi,* Y, Lian,*L. Feng,* Sm@C_2v(3)-C₈₀: Site-hopping motion of endohedral Sm atom and metal-induced effect on redox profile.Nanoscale2012,4, 6876-6879. (SCI二区；IF=6.9)

52. 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. (SCI二区；IF=4.9)

53. 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.(SCI一区；IF=14.3)

54. Feng, L.;Radhakrishnan, S. G.;Mizorogi, N.;Slanina,Z.;Tsuchiya,T.;Akasaka, T.*;Nagase,S.;Martín,N.;Guldi,D.M.*Synthesis andCharge-TransferChemistryofLa₂@I_h-C₈₀/ Sc₃N@I_h-C₈₀- Zinc Porphyrin Conjugates: Impact of Endohedral Cluster,J.Am.Chem.Soc.,2011,133, 7608-7618.(SCI一区；IF=14.3)

55. 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.(SCI一区；IF=12.9)

56. 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@I_h-C₈₀Switch—Unprecedented Oxidative Pathway in Photoinduced Charge Transfer Reactivity，J.Am.Chem.Soc.2010,132,9078-9086.(SCI一区；IF=14.3)

57. L. Feng,T. Akasaka, and S. Nagase,EndohedralsinCarbon Nanotubes and Related Structures,D. M. Guldi and N. MartinEds.; Wiley-VCHVerlag GmbH & Co. KGaA, Weinheim,2010,455-490.

58. 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.B,2007,111,14223.(SCI三区；IF=2.9)

59. 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.(SCI一区；IF=14.3)

60. 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. (SCI二区；IF=4.9)

61. 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, 17136-17137.(SCI一区；IF=14.3)

62. 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,Chem.Phys.Lett.,2005,405, 274-277.(SCI三区；IF=2.0)

63. Feng, L.;Lu, X.; He, X.; Shi, Z.; Gu, Z.Reactions of endohedral metallofullerenes withazomethine ylides: an efficient route toward metallofullerene-pyrrolidine.Inorg.Chem.Commun.2004,7, 1010-1013.(SCI三区；IF=1.9)

64. Feng,L.;Li, H.; Li, F.; Shi, Z.; Gu，Z.Functionalization of carbon nanotubes with amphiphilic molecules and their Langmuir-Blodgett films,Carbon,2003,41, 2385-2391. (SCI一区；IF=8.8)

65. Feng, L.;Zhang, X.; Wang, J.; Gu, Z.Chemical Modification of Tb@C₈₂by Copper (I) Catalyzed Cycloadditions,Chem.Mater.,2002,14, 4021-4022.(SCI一区；IF=9.6)

66. Feng, L.;Sun, B.; He, X.; Gu, Z.Isolation and Spectroscopic Study of a Series of Monoterbium Endohedral Metallofullerenes,Fullerenes, Nanotubes and Carbon Nanostructures,2002,10, 353-361.(SCI四区；IF=1.6)

67. 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, 996-998.(SCI四区；IF=0.6)

Ascoauthors

1. J.Zhang, X.Sheng, Z.Ding, H.Wang,L.Feng, X.Zhang, L.Wen, L.Jiang,X.Feng,*Decoupling hydrogen production from water oxidation by integrating atriphase interfacial bioelectrochemical cascade reaction.Science Bulletin,2020,https://doi.org/10.1016/j.scib.2020.08.010.

2. W.Cai, L.Abella, J.Zhuang, X.Zhang,L.Feng, Y.Wang, R.Morales-Martínez, R.Esper, M.Boero, A.Metta-Magaña, A.Rodríguez-Fortea, J.M. Poblet,*L.Echegoyen,*and N.Chen.*Synthesis and Characterization of Non-Isolated-Pentagon-Rule Actinide Endohedral Metallofullerenes U@C₁(17418)C₇₆, U@C₁(28324)C₈₀, and Th@C₁(28324)C₈₀: Low-Symmetry Cage Selection Directed by a Tetravalent Ion.J. Am. Chem. Soc.,2018,140, 18039−18050.

3. 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.

4. 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.

5. 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.

6. 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.

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