姓名:陆仕荣,性别:男
学科专业:材料科学与工程
学历及学位:研究生,博士
职称:研究员
职务:材料科学与工程学院院长
联系电话:0576-88669986
Email:lushirong@tzc.edu.cn
学习经历:
2004年毕业于湖南大学,化学专业,获学士学位;
2008年毕业于大连理工大学,精细化工专业,获硕士学位;
2012年毕业于日本東北大学-大连理工大学,化学专业,获双博士学位。
工作经历:
2011年4月至2012年11月,日本先进材料研究中心JSPS博士后;
2012年11月至2013年12月,美国加州大学洛杉矶分校博士后 (合作导师:Yang Yang教授);
2013年12月至2015年3月,澳洲墨尔本大学博士后(合作导师:澳洲科学院院长Andrew B. Holems教授);
2015年3月至2022年8月,中科院重庆绿色智能技术研究院 研究员;
2016年7月至2022年8月,中科院重庆绿色智能技术研究院 博士生导师;
2017年5月至2022年8月,中科院重庆绿色智能技术研究院 薄膜太阳能研究中心主任;
2018年7月至2022年8月,中科院重庆绿色智能技术研究院 智能制造技术所副所长;
2022年9月至今,材料科学与工程学院院长。
社会主要兼职:
中国能源协会副主任委员,中国化学化工学会委员;重庆市能源产业技术联盟副理事长,重庆市青年领军人才联盟副理事长;
Polymers,Materials Reports:Energy(MRE:新刊)等杂志客座编辑;Joule,AdvancedMaterials等20余个期刊的审稿人。
研究方向:
太阳能光电,光热转化技术。
主要科研项目:
(1)海外高层次人才项目,《有机太阳能电池材料设计合成及光伏性能研究》,2016.3-2019.3,200万元,主持;
(2)国家自然科学基金面上项目,《小分子/富勒烯杂化电子受体的设计合成、光伏性能及工作机理研究》(62074149),2021.1-2024.12,59万元,主持;
(3)国家自然科学基金应急处理项目,《过渡金属催化的高效石墨烯反应及功能团分布调控研究》(21642013),2017.01-2017.12,10万元,主持;
(4)重庆市杰出青年基金项目,《有机太阳能电池材料及器件研究》(cstc2020jcyj-jqX0018),2020.9- 2023.8,50万元,主持;
(5)重庆英才•创新创业领军人才项目,《有机太阳能电池研究及大面积制备技术》(CQYC201903008),2019.9-2022.9,50万元,主持;
(6)重庆市基础研究与前沿探索重点项目,《基于纳米石墨烯的钙钛矿太阳能电池研究》(cstc2015jcyjB0628),2016.1-2018.12,20万元,主持;
(7)中央级科学事业单位修购专项项目,《大面积柔性光伏器件印刷制备平台》,240万元,2019.1-2019.12,主持;
(8)重庆市重点仪器项目,《太阳能电池规模化印刷制备平台》(cstc2016Y0816),2016.1-2017.12,300万元,主持。
近期代表性论文及成果:
(1)Lv J., Tang, H., Yan C. Q. Lu S.R.*, Kan, Z. P.* Additive-induced miscibility regulation and hierarchical morphology enable 17.5% binary organic solar cells Energ. Environ. Sci. 2021, 14: 3044-3052.
(2)Hu, D.Q.#; Yang, Q.G.#; Zheng, Y.J.#; Tang, H.; Chung, S.; Singh, R.; Lv, J.; Fu, J.H.; Kan, Z.P.; Qin, B.; Chen, Q.Q.; Liao, Z.H.; Chen, H.Y.; Xiao, Z.Y.*; Sun, K. *; Lu S.R.*;15.3% Efficiency All-Small-Molecule Organic Solar Cells Achieved by a Locally Asymmetric F, Cl Disubstitution Strategy; Adv. Sci. 2021, 2004262.
(3)Fu, J.H.; Chen, H.Y.; Huang, P.H.; Yu, Q.Q.; Tang, H.; Chen, S.S.; Jung, S.; Sun,K.; Yang C.;, Lu , S.R.*; Kan ,Z.P.* ;Xiao, Z.Y.*; Li, G.*; Eutectic phase behavior induced by a simple additive contributes to efficient organic solar cells; Nano Energy 84 (2021) 105862.
(4)Dai,X.X.*; Cheng,X.D.; Kan,Z.P.; Xiao,Z.Y. ; Duan,T.N. ; Hu,C .*; Lu,S.R.*; Research Progress on Small-Molecule Photovoltaic Materials Based on Donor-Acceptor-Donor Type Polycyclic Aromatic Hydrocarbons; CHINESE JOURNAL OF ORGANIC CHEMISTRY,2020,40,12,4031-4045.
(5)Yu,Q.Q.#;Xu,J.J.#;Fu,J.H.;Xu,T.L.*;Yan,X.H.;Chen.S.S.;Chen,H.Y.;Sun,K.;Kan,Z.P.; Lu,S.R.*;Xiao,Z.Y.*; Crystallinity dictates the selection of fullerene or non-fullerene acceptors in a small molecule organic solar cell, Dyes and Pigments,2021,187,109085.
(6)Xu C. X.; Chen, H. Y.; Zhao, Z. J.; Gao, J. H.; Ma, X. L.; Lu, S. R. *; Zhang, X. L.; Xiao, Z. Y., Zhang F. J. *; 14.46% Efficiency small molecule organic photovoltaics enabled by the well trade-off between phase separation and photon harvesting; Journal of Energy Chemistry; 2021, 57, 610-617.
(7)Dong, X.Y. ; Hu, D.Q.; Chen, P.Y. ; Dai, X.X.; Hu, C.; Xiao, Z.Y.*; Lu, S.R.*; Small molecule donors with different conjugated pi linking bridges: Synthesis and photovoltaic properties; Journal of Semiconductors,2020,41,12,122201.
(8)Zhao, H.Q.*# ; Yang, S.H.# ; Xu, T.L. #; Shi, X. ; Lu, S.R.* ; Wu, J.W.* ; Wang, C.X. ; Hu, J.M;Synthesis and characterization of single-bond fullerene dimer derivatives; JOURNAL OF MATERIALS RESEARCH,2020,35,20,2676-2683.
(9)Liao, Z.H.; Yang, K. ; Hou, L.C.; Li, J.; Lv, J.; Singh, R.; Kumar, M. ; Chen, Q.Q.; Dong, X.Y. ; Xu, T.L. ; Hu, C .; Duan, T.N . ; Kan, Z.P.; Lu, S.R.* ; Xiao, Z.Y.*; Thiazole-Functionalized Terpolymer Donors Obtained via Random Ternary Copolymerization for High-Performance Polymer Solar Cells; MACROMOLECULES,2020,53,20,9034-9042.
(10)Wang,M.#; Li, W.#;Wang,H.X.;Yang,K.; Hu,X.F.; Sun, K.; Lu, S.R.; Zang, Z.G.*; Small Molecule Modulator at the Interface for Efficient Perovskite Solar Cells with High Short-Circuit Current Density and Hysteresis Free;ADVANCED ELECTRONIC MATERIALS,2020,6,10,2000604.
(11)Zhang, J.#; Lv, J.#; Dong, X. Y.; Xu, T.L.; Dai, X. X.; Duan, T. N.*; Kan, Z. P.*; Liu,P.; Lu, S. R.*; Cyano-functionalized small-molecule acceptors for high-efficiency wide-bandgap organic solar cells;J Mater. Chem. C, 2020, 8, 9195-9200.
(12)Yang, K.#; Chen, S.S.#; Fu, J.H.; Jung, S.; Ye, J.F.; Kan, Z.P.; Hu, C.; Yang, C.; Xiao, Z.Y. *; Lu, S.R. *; Sun, K. *; Molecular Lock Induced by Chloroplatinic Acid Doping of PEDOT:PSS for High-Performance Organic Photovoltaics; ACS Appl.Mater.Inter.2020.12,27,30954-30961.
(13)Hu, D.Q.#; Yang, Q.G.#; Chen, H.Y.; Wobben, F.;Vincent M.Le Corre; Singh, R.; Liu, T.; Ma, R.J.; Tang, H.;L. Jan Anton Koster; Duan, T.N.; Yan, H.; Kan, Z.P.*; Xiao, Z.Y.*;Lu, S.R. *; 15.34% Efficiency All-Small-Molecule Organic Solar Cells with Improved Fill Factor Enabled by A Fullerene Additive. Energ. Environ. Sci. 2020, DOI: 10.1039/D0EE00714E.
(14)Yan, C.Q.#; Tang, H.#; Ma, R.J.#; Zhang, M.; Liu, T.*; Lv, J; Huang, J.M.; Yang, Y.K.; Xu, T.L., Kan, Z. P.; Yan, H.; Liu, F.*; Lu, S. R.; Li, G.*; Synergy of Liquid-Crystalline Small-Molecule and Polymeric Donors Delivers Uncommon Morphology Evolution and 16.6% Efficiency Organic Photovoltaics; Adv. Sci. 2020, 7, 2000149.
(15)Duan, T. N. #; Hou, L. C #; Fu, J. H.; Yang, Q. G.; Kan, Z. P.; Chen, Q. Q.; Zhong, C.*; Xiao, Z. Y.; Yu, D. H.*; Lu, S. R.* ; An asymmetric end-capping strategy enables a new non-fullerene acceptor for organic solar cells with efficiency over 10%; Chem. Commun., 2020, 56, 6531-6534.
(16)Tang, H.#; Chen, H.Y.#; Yan, C.Q.*; Huang, J.M.; Fong Patrick W. K.; Lv, J.; Hu, D.Q.; Singh R.; Manish, K.; Xiao, Z.Y.; Kan, Z.P.; Lu ,S.R. *; Li, G.*;Delicate Morphology Control Triggers 14.7% Efficiency All-Small-Molecule Organic Solar Cells. Adv Energy Mater,2020, DOI: 10.1002/aenm, 202001076.
(17)Xu, T.L . #; Chang, Y.Y. #; Yan, C.Q.; Yang, Q.G.; Kan, Z. P.*; Singh, R.*; Kumar,M.; Li, G; Lu, S.R.; Duan, T. N.*; Fluorinated Oligothiophene Donor for High-Performance Nonfullerene Small-Molecule Organic Solar Cells; Sustainable Energy Fuels, 2020, 4, 2680-2685.
(18)Meng, W.; Lv, J .; Duan, T.N.* ; Kan, Z.P.* ; Lu, S.R. ; Dai, X.X.; Li, Z.F.*; Small molecule donor based on alkoxylated benzothiadiazole unit: Synthesis andphotovoltaics properties;MATERIALS CHEMISTRY AND PHYSICS,2020,247,122874.
(19)Shao, Y.Q. *; Chang, Y.Y.; Zhang, S.J.; Bi, M.Y.; Liu, S.J.; Zhang, D.L.; Lu S.R.; Kan, Z.P.*; Impact of Polymer Backbone Fluorination on the Charge Generation/Recombination Patterns and Vertical Phase Segregation in Bulk Heterojunction Organic Solar Cells; Frontiers in Chemistry, Doi: 10.3389/fchem.2020.00144.
(20)Duan, T. N. #; Gao, J. #; Xu, T. L.; Kan, Z. P.; Chen, W. J.; Singh, R.*; Kini, G. P.; Zhong, C.*; Yu, D. H.; Xiao, Z. G.; Xiao, Z. Y.; Lu, S. R.*; Simple Organic Donors Based on Halogenated Oligothiophenes for All Small Molecule Solar Cells with Efficiency Over 11%; J. Mater. Chem. A, 2020, 8, 5843-5847.
(21)Fu, J.H.#; Chen, S.S.#; Yang, K.; Sungwoo, J.; Lv, J.; Lan, L.K.; Chen, H.Y.; Hu, D.Q.; Yang, Q.G.; Duan, T.N.; Kan, Z.P.; Yang,C.; Sun, K. *; Lu ,S.R.*; Xiao, Z.Y.*; Li Y.F.;A "sigma-Hole"-Containing Volatile Solid Additive Enabling 16.5% Efficiency Organic Solar Cells; ISCIENCE,2020, DOI: 10.1016/j.isci.2020.100965.
(22)Tang, H.#; Chen, H.Y.#; Yan, C.Q.*; Karuthedath, S., Yin, H., Gao, Y., Gao, J., Zhang, L., Huang, J., So, KS., Kan Z.P.*, Laquai, F., Li, G.*, Lu, S.R.*; Deciphering the Role of Fluorination: Morphological Manipulation Prompts Charge Separation and Reduces Carrier Recombination in All‐Small‐Molecule Photovoltaics; Solar RRL,2020.
(23)Duan, T. N.#; Gao, J.#; Babics, M.; Kan, Z. P.*; Zhong, C.*; Singh, R.; Yu, D. H.; Lee, J. W.; Xiao, Z. Y.; Lu, S. R.* Difluorinated Oligothiophenes for High Efficiency All Small Molecule Organic Solar Cells: Positional Isomeric Effect of Fluorine Substitution on Performance Variations. Solar RRL, 2020, 4, 1900472.
(24)Hou, L.C.#; Lv, J.#; Wobben, F.; Vincent M. Le Corre; Tang, H. Singh, R.*; Kim, M.; Wang, F.F.; Sun, H.T.; Chen, W.J. Xiao, Z.G.; Kumar, M.; Xu, T.L.; Zhang, W.M.; McCulloch, I.; Duan, T.N.; Xie, H.L.; L. Jan Anton Koster; Lu, S.R.*; Kan, Z.P.*;Effects of Fluorination on Fused Ring Electron Acceptor for Active Layer Morphology, Exciton Dissociation and Charge Recombination in Organic Solar Cells; ACS Appl.Mater.Inter.2020.
(25)Hu, D.Q.; Fu, J.H.; Chen, S.S.; Li, J.; Yang, Q.G.; Gao, J.; Tang, H.; Kan, Z.P.; Duan, T. N.; Lu, S.R.*; Sun ,K.*; Xiao, Z.Y.*; Block copolymers as efficient cathode interlayer materials for organic solar cells; Front. Chem. Sci. Eng,. doi.org/10.1007/s11705-020-2010-1.
(26)Tang, H.#; Yan, C.Q. *#; Huang, J.M.; Kan, Z.P.; Xiao, Z.Y.; Sun, K.; Li, G.*; Lu S.R.*; Benzodithiophene-Based Small-Molecule Donors for Next-Generation All-Small-Molecule Organic Photovoltaics; Matter (2020), https://doi.org/10.1016/j.matt.2020.09.001.
(27)Chen, H.Y.#; Hu, D.Q.#; Yang, Q.G.; Gao, J.; Fu, J.H; Yang, K.; He, H.; Chen, S.S; Kan, Z.P.; Duan, T.N.; Yang, C.; Ouyang, J.Y.; Xiao, Z.Y. *; Sun, K. *; Lu ,S.R.*;All-Small-Molecule Organic Solar Cells with an Ordered Liquid Crystalline Donor. Joule, 2019, 3, 3034-3047.
(28)Lv, J.; Feng, Y.; Fu, J.H.; Gao, J.; Singh, R.; Kumar, M.; Kim, M.; Tang, H.; Lu S.R.*; Zhang, W.; McCulloch, I.; Li, J.F.*;Kan, Z.P.*; Energetic Disorder and Activation Energy in Efficient Ternary Organic Solar Cells with Nonfullerene Acceptor Eh‐IDTBR as the Third Component. Solar RRL, 1900403.
(29)Sun, W.B. *#; Zheng, Y.J.*#; Yang, K.*#; Zhang, Q; Shah, A.A.; Wu, Z.; Sun , Y.Y.; Feng , L.; Chen, D.Y.; Xiao, Z.Y.*; Lu, S. R.*; Li ,Y.; Sun, K.*; Machine learning-assisted molecular design and efficiency prediction for high-performance organic photovoltaic materials; Sci. Adv., 2019, 5, 4275.
(30)Tang, H.#; Xu, T.L.#; Yan, C.Q.; Gao, J.; Yin, H.; Lv, J.; Singh, R.; Kumar, M.; Duan, T.N.; Kan, Z.P.*; Lu, S.R.*; Li, G.*; Donor Derivative Incorporation: An Effective Strategy toward High Performance All‐Small‐Molecule Ternary Organic Solar Cells; Advanced Science,2019, 6(21), 1901613.
(31)Dong, X.Y.#; Yang, K.#; Tang, H.; Hu, D.Q.; Chen, S.S.; Zhang, J.; Kan, Z.P.; Duan, T.N; Hu, C.; Dai, X.X.; Xiao, Z.Y.*; Sun, K.* ; Lu, S.R. *; Improving Molecular Planarity by Changing Alky Chain Position Enables 12.3% Efficiency All-Small-Molecule Organic Solar Cells with Enhanced Carrier Lifetime and Reduced Recombination; Solar RRL, 2019, 1900326.
(32)Wang, K.L. #; Lv, J. #; Duan, T.N.*; Li, Z.F.; Yang, Q.G.; Fu, J.H.; Meng, W,; Xu,T.L.; Xiao, Z.Y; Xiao, Z.Y.; Kan, Z. P.*;Sun, K.; Lu, S. R.*; Simple near-Infrared Nonfullerene Acceptors Enable Organic Solar Cells with >9% Efficiency; ACS Appl. Mater. Interfaces 2019, 11, 6717−6723.
(33)Duan, T.N.#; Tang, H.#; Liang, R.Z.*; Lv, J.; Kan, Z.P.*; Singh, R.; Kumar, M.; Xiao, Z.Y., Lu, S. R*; Laquai, F.; Terminal group engineering for small-molecule donors boosts the performance of nonfullerene organic solar cells; J. Mater. Chem. A,2019, 7(6), 2541-2546.
(34)Duan, T. N.#; Liang, R.-Z.#; Pai, Y.-F.; Wang, K. L.; Zhong, C. *; Lu, S. R. *; Yu, D. H. *; Facile synthesis of bis-dicyanovinylidene-end-capped push-pull molecules as panchromatic absorbers; Dyes and Pigments. 2019, 161, 227-232.
(35)Sun, W.B. ; Li, M. ; Li, Y.*; Wu, Z. ; Sun, Y.Y. ; Lu, S.R. ; Xiao, Z.Y. ; Zhao, B.M. ; Sun, K.*;The Use of Deep Learning to Fast Evaluate Organic Photovoltaic Materials; ADVANCED THEORY AND SIMULATIONS,2019,2,1, 1800116.
(36)Yang, K.#; Fu, J.H.#; Hu, L.J.; Xiong, Z.; Li, M.; Wei, X.Z.; Xiao, Z.Y.; Lu, S.R.; Sun, K .*;Impact of ZnO Photoluminescence on Organic Photovoltaic Performance; ACS APPLIED MATERIALS & INTERFACES,2018,10,46, 39962-39969.
(37)Fu, J.H.; Sun, K.*; Yang, K.; Hu, L.J.; Leng, C.Q.; Kan, Z.P.; Duan, T. N.; Li, M.; Shi, H.F.; Xiao, Z.Y.*; Lu, S.R.*; Ouyang J.Y.; Efficiency improvement of planar perovskite solar cells using a phenol additive; J. Mater. Chem. C, 2019,6,43,11519-11524.
(38)Hu, L.J. ; Li, M.*; Yang, K. ; Xiong, Z .; Yang, B.; Wang, M.; Tang, X.S. ; Zang, Z.G. ; Liu, X.X.; Li, B.C. ; Xiao, Z.Y.; Lu, S.R.; Gong, H.; Ouyang, J.Y. ; Sun, K.*; PEDOT:PSS monolayers to enhance the hole extraction and stability of perovskite solar cells; J. Mater. Chem. A, 2018,6,34,16583-16589.
(39)Xiao, Z.Y.* ; Duan, T.N.; Chen, H.Y. ; Sun, K.*; Lu, S.R.*; The role of hydrogen bonding in bulk-heterojunction (BHJ) solar cells: A review; SOLAR ENERGY MATERIALS AND SOLAR CELLS,2018,182,1-13.
(40)Luo, W.#; Zeng, C . #; Du, X.Q.* ; Leng, C.Q. ; Yao, W.; Shi, H.F. ; Wei, X.Z .; Du, C.L.; Lu, S.R.*; Copper thiocyanate/copper iodide based hole transport composites with balanced properties for efficient polymer light-emitting diodes; J. Mater. Chem. C,2018,6,18, 4895-4902.
(41)Chen,W.;Sun,K.*;Ma,C.Y.;Leng, C.Q.; Fua, J.H.; Hu,L.J.; Li,M.; Wang, M.; Zang, Z.G.; Tang, X.S.; Shi, H.F.; Lu, S.R.*; Eliminating J-V hysteresis in perovskite solar cells via defect controlling; ORGANIC ELECTRONICS,2018,58, 283-289.
(42)Ji,Y.X.#;Yang,J.#;Luo,W.;Tang,L.L.;Bai, X.X.; Leng,C.Q. ; Ma,C.Y. ; Wei, X.Z.; Wang, J.; Shen, J.; Lu, S.R.*; Sun, K.*; Shi, H.F.*;Ultraflexible and High-Performance Multilayer Transparent Electrode Based on ZnO/Ag/CuSCN; ACS APPLIED MATERIALS & INTERFACES,2018,10,11, 9571-9578.
(43)Ye, Y.; Zang ,Z.G.*; Zhou, T.W.; Dong , F.; Lu S.R.*; Tang X.S.; Wei, W.; Zhang, Y.B.*;Theoretical and experimental investigation of highly photocatalytic performance of CuInZnS nanoporous structure for removing the NO gas;Journal of Catalysis , 2018, 357,100–107.
(44)Ye, T.*; Jin, S.; Kang, C.; Tian, C.; Zhang, X.; Zhan, C.*; Lu, S.R.; Kan, Z.P.*;Comparison study of Wide Bandgap Polymer (PBDB-T) and Narrow Bandgap Polymer PBDTTT-EFT) as Donor for Perylene Diimide Based Polymer Solar Cells; Frontiers in chemistry, 2018,6, 613.
(45)Zeng, X.F.#; Zhou, T.W.#; Leng, C.Q. ; Zang, Z.G.* ; Wang, M.; Hu, W.; Tang, X.S.; Lu, S.R.; Fang, L.A. ; Zhou, M.*;Performance improvement of perovskite solar cells by employing a CdSe quantum dot/PCBM composite as an electron transport layer; J. Mater. Chem. C,2017,5,33: 17499-17505.
(46)Wu, F.L. #; Li, P.C.#; Sun, K. *; Zhou, Y.L. ; Chen, W.; Fu, J.H. ; Li, M .; Lu, S.R. ; Wei, D.S.; Tang, X.S. ; Zang, Z.G. ; Sun, L.D. ; Liu, X.X.; Ouyang, J.Y.*; Conductivity Enhancement of PEDOT:PSS via Addition of Chloroplatinic Acid and Its Mechanism; ADVANCED ELECTRONIC MATERIALS,2017,3,71700047.
(47)Shen, J .#; Liu, X.Z.#; Song, X.F.; Li, X.M.; Wang, J. ; Zhou, Q . ; Luo, S.; Feng, W.L.; Wei, X.Z. ; Lu, S.R.; Feng, S.L.; Du, C.L.; Wang, Y.F. ; Shi, H.F.*; Wei,D.P.* ;High-performance Schottky heterojunction photodetector with directly grown graphene nanowalls as electrodes;NANOSCALE,2017,9,18, 6020-6025.
(48)Armin, A . *; Subbiah, J.; Stolterfoht, M.; Shoaee, S . ; Xiao, Z.Y.; Lu, S.R.; Jones, DJ.* ; Meredith, P.*; Reduced Recombination in High Efficiency Molecular Nematic Liquid Crystalline: Fullerene Solar Cellsl; ADVANCED ENERGY MATERIALS,2016,6,22, 1600939;
(49)Wu, J.#; Feng, S.L.*# ; Wei, X.Z. ; Shen, J.; Lu, W.Q. ; Shi, H.F . ; Tao, K . ; Lu, S.R. ; Sun, T.; Yu, L.Y. ; Du, C.L. ; Miao, J.M.* ; Norford, LK.;Facile Synthesis of 3D Graphene Flowers for Ultrasensitive and Highly Reversible Gas Sensing; ADVANCED FUNCTIONAL MATERIALS,2016,26,41, 7462-7469.
(50)Ma, C.Y.# ; Leng, C.Q .# ; Ji, Y.X.; Wei, X.Z.; Sun, K.; Tang, L.L. ; Yang, J.; Luo, W.; Li, C.L. ; Deng, Y.S.; Feng, S.L. ; Shen, J. ; Lu, S.R.*; Du, C.L. *; Shi, H.F.*;2D/3D perovskite hybrids as moisture-tolerant and efficient light absorbers for solar cells; NANOSCALE,2016,8,43, 18309-18314.
(51)Si, W.L.; Zhang, X.; Lu, S.R.; Yasuda,T.; Asao, N .; Han, L.Y.; Yamamoto, Y.; Jin, T.A.* ;Manganese powder promoted highly efficient and selective synthesis of fullerene mono- and biscycloadducts at room temperature; SCIENTIFIC REPORTS,2015,5, 13920.
(52)Chen, Q .# ; Zhou, H.P.*#; Fang, Y.H.; Stieg, A.Z. ; Song, T.B. ; Wang, H.H. ; Xu, X.B. ; Liu, Y.S. ; Lu, S.R. ; You, J.B. ; Sun, P.Y. ; Mckay, J. ; Goorsky, MS. ; Yang, Y. *.The optoelectronic role of chlorine in CH3NH3PbI3(Cl)-based perovskite solar cells; NATURE COMMUNICATIONS,2015,6,7269.
(53)Xiao, Z.Y.; Sun, K.; Subbiah, J . ; Qin, T.S. ; Lu, S.R.; Purushothaman, B. ; Jones, DJ. ; Holmes, AB. ; Wong, WW.H.*;Effect of molecular weight on the properties and organic solar cell device performance of a donor-acceptor conjugated polymer; POLYMER CHEMISTRY,2015,6, 12, 2312-2318.
(54)Sun, K.#; Xiao, Z.Y.#; Lu, S.R.#; Zajaczkowski, W.; Pisula, W. ; Hanssen, E. ; White, JM. ; Williamson, RM. ; Subbiah, J .; Ouyang, J.Y . *; Holmes, AB.; Wong, WW.H. *; Jones, DJ.*;A molecular nematic liquid crystalline material for high-performance organic photovoltaics; NATURE COMMUNICATIONS,2015,6,603.
(55)You,J.B.;Hong,Z.R.*;Yang,Y.;Chen,Q.;Cai,M.;Song,T.B. ; Chen,C.C. ; Lu, S.R.;Liu,Y.S.;Zhou,H.P.*; Yang, Y.*;Low-Temperature Solution-Processed Perovskite Solar Cells with High Efficiency and Flexibility; ACS NANO,2014,8,2, 1674-1680.
(56)Si, W.L.; Lu, S.R.;Bao, M.; Asao, N.; Yamamoto, Y. ; Jin, T.*; Cu-Catalyzed C-H Amination of Hydrofullerenes Leading to 1,4-Difunctionalized Fullerenes; ORGANIC LETTERS,2014,16,2, 620-623.
(57)Si, W.L. ; Lu, S.R. ; Asao, N. ;Bao, M.; Yamamoto, Y. ; Jin, T.*; NBS-promoted oxidation of fullerene monoradicals leading to regioselective 1, 4-difunctional fullerenes; CHEMICAL COMMUNICATIONS, 2014,50,99, 15730-15732.
(58)Lu, S.R. ;Jin, T.N. *; Yasuda, T. ; Si, W.L.; Oniwa, K.; Alamry, KA.; Kosa, SA. ; Asiri, AM . ; Han, L.Y.; Yamamoto, Y. *; Deuterium Isotope Effect on Bulk Heterojunction Solar Cells. Enhancement of Organic Photovoltaic Performances Using Monobenzyl Substituted Deuteriofullerene Acceptors; ORGANIC LETTERS,2013,15,22, 5674-5677.
(59)Lu,S.R. ; Si, W.L.; Bao, M. ; Yamamoto, Y. ; Jin, T.N.*;Co-Catalyzed Radical Cycloaddition of [60] Fullerene with Active Dibromides: Selective Synthesis of Carbocycle-Fused Fullerene Monoadducts; ORGANIC LETTERS,2013,15,15, 4030-4033.
(60)Lu, S.R. ; Jin, T.A. *; Yasuda, T . ; Islam, A. ; Akhtaruzzaman, M.; Han, L.Y. ; Alamry, KA . ; Kosa, SA . ; Asiri, AM . ; Yamamoto, Y.; Functional 2-benzyl-1,2-dihydro[60]fullerenes as acceptors for organic photovoltaics: facile synthesis and high photovoltaic performances; TETRAHEDRON,2013,69,4, 1302-1306.
(61)Lu, S.R.; Jin, T.N. *; Bao, M .; Yamamoto, Y.;NaOH-Catalyzed Dimerization of Monofunctionalized Hydrofullerenes: Transition-Metal-Free, General, and Efficient Synthesis of Single-Bonded [60]Fullerene Dimers; ORGANIC LETTERS,2012,14,13, 3466-3469.
(62)Lu,S.R.;Jin,T.N.*;Bao,M.;Asiri,AM.;Yamamoto,Y.*; Palladium-catalyzed bisfunctionalization of active alkenes by beta-acetonitrile-alpha-allyl addition: application to the synthesis of unsymmetric 1,4-di(organo)fullerene derivatives; TETRAHEDRON LETTERS,2012,53,10, 1210-1213.
(63)Lu, S.R. ; Jin, T.N.*; Kwon, E.; Bao, M.; Yamamoto, Y.*;Highly Efficient Cu(OAc)2-Catalyzed Dimerization of Monofunctionalized Hydrofullerenes Leading to Single-Bonded [60]Fullerene Dimers; ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2012,51,3, 802-806.
(64)Lu, S.R.; Jin,T.N.*; Bao, M.; Yamamoto, Y.*; Cobalt-Catalyzed Hydroalkylation of [60]Fullerene with Active Alkyl Bromides: Selective Synthesis of Monoalkylated Fullerenes; OURNAL OF THE AMERICAN CHEMICAL SOCIETY,2011,133,32, 12842-12848.
(65)Du, X.; Dai, Y.; He, R.; Lu, S.R.; Bao, M.*;New Application of N-Halosuccinimide/PPh3 for the Halogenation of Propargyl Alcohols to Haloallenes;SYNTHETIC COMMUNICATIONS, 2009,39,21, 3940-3949.
(66)Lu, S.R. ; Jin, T.N.* ; Bao, M .; Yamamoto, Y.*; Palladium-Catalyzed Three-Component [3+2] Cycloaddition of Propargyl Trifluoroacetates, Ethylidene Malononitriles, and Allyltributylstannane; ORGANIC LETTERS, 2010, 12,4, 864-866.
(67)Lu, S.R. ; Xu, Z.W.; Bao, M.* ; Yamamoto, Y.*;Carbocycle synthesis through facile and efficient palladium-catalyzed allylative de-aromatization of naphthalene and phenanthrene allyl chlorides; ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2008,47,23, 4366-4369.
(68)Lu, S.R.; Peng, B.; Bao, M.*; The dearomatization of aromatic compounds; PROGRESS IN CHEMISTRY,2007,19,10, 1529-1536.
个人荣誉及获奖:
国务院政府特殊津贴获得者;
海外高层次青年人才计划入选者;
中国科学院2020年度创新人物提名;
重庆市杰出青年基金获得者;
辽宁省自然科学二等奖;
重庆市自然科学二等奖;
重庆青年五四奖章;
重庆市产学研创新成果奖一等奖;
重庆英才创新创业领军人才;
重庆市学术技术带头人;
重庆市十佳科技青年奖等。