阚志鹏，2015年1月在米兰理工大学获得博士学位。于2015年3月赴阿卜杜拉国王科技大学太阳能电池研究中心从事博士后研究，主要进行有机光伏电池载流子动力学方面的工作。于2018年3月，加入中国科学院重庆绿色智能技术研究院工作。 研究领域： 有机光伏电池，有机光伏电池器件物理，有机半导体材料性质，载流子动力学

代表论著： 1. Kan Z, Wang Z, Firdaus Y, Babics M, Alshareef H, Beaujuge P, et al. Atomic-Layer-Deposited AZO Outperforms ITO in High-Efficiency Polymer Solar Cells. J Mater Chem A. 2018 2. Liu S, Song X, Thomas S, Kan Z, Cruciani F, Laquai F, et al. Thieno [3, 4‐c] Pyrrole‐4, 6‐Dione‐Based Polymer Acceptors for High Open‐Circuit Voltage All‐Polymer Solar Cells. Adv Energy Mater. 2017. 3. Gorenflot J, Paulke A, Piersimoni F, Wolf J, Kan Z, Cruciani F, et al. From Recombination Dynamics to Device Performance: Quantifying the Efficiency of Exciton Dissociation, Charge Separation, and Extraction in Bulk Heterojunction Solar Cells with Fluorine‐Substituted Polymer Donors. Adv Energy Mater. 2017. 4. Xu W, Yan C, Kan Z, Wang Y, Lai W-Y, Huang W. High Efficiency Inverted Organic Solar Cells with a Neutral Fulleropyrrolidine Electron-Collecting Interlayer. ACS applied materials & interfaces. 2016;8(22):14293-300. 5. Xu W, Xia R, Ye T, Zhao L, Kan Z, Mei Y, et al. Understanding the Light Soaking Effects in Inverted Organic Solar Cells Functionalized with Conjugated Macroelectrolyte Electron‐Collecting Interlayers. Adv Sci. 2016;3(2). 6. Sharma B, Sarothia Y, Singh R, Kan Z, Keivanidis PE, Jacob J. Synthesis and characterization of light‐absorbing cyclopentadithiophene‐based donor–acceptor copolymers. Polym Int. 2016;65(1):57-65. 7. Liu S, Kan Z, Thomas S, Cruciani F, Brédas JL, Beaujuge PM. Thieno [3, 4‐c] pyrrole‐4, 6‐dione‐3, 4‐difluorothiophene Polymer Acceptors for Efficient All‐Polymer Bulk Heterojunction Solar Cells. Angewandte Chemie. 2016;128(42):13190-4. (equal contributed) 8. Kan Z, Colella L, Canesi EV, Vorobiev A, Skrypnychuk V, Terraneo G, et al. Charge transport control via polymer polymorph modulation in ternary organic photovoltaic composites. J Mater Chem A. 2016;4(4):1195-201. 9. Do K, Saleem Q, Ravva MK, Cruciani F, Kan Z, Wolf J, et al. Impact of Fluorine Substituents on π‐Conjugated Polymer Main‐Chain Conformations, Packing, and Electronic Couplings. Adv Mater. 2016;28(37):8197-205. 10. Xu W, Kan Z, Ye T, Zhao L, Lai W-Y, Xia R, et al. Well-Defined Star-Shaped Conjugated Macroelectrolytes as Efficient Electron-Collecting Interlayer for Inverted Polymer Solar Cells (vol 7, pg 452, 2015). ACS APPLIED MATERIALS & INTERFACES. 2015;7(8):5038-. 11. Aluicio-Sarduy E, Singh R, Kan Z, Ye T, Baidak A, Calloni A, et al. Elucidating the Impact of Molecular Packing and Device Architecture on the Performance of Nanostructured Perylene Diimide Solar Cells. ACS applied materials & interfaces. 2015;7(16):8687-98. 12. Xu W, Kan Z, Ye T, Zhao L, Lai W-Y, Xia R, et al. Well-Defined Star-Shaped Conjugated Macroelectrolytes as Efficient Electron-Collecting Interlayer for Inverted Polymer Solar Cells. ACS applied materials & interfaces. 2014;7(1):452-9. 13. R, Aluicio-Sarduy E, Kan Z, Ye T, MacKenzie R, Keivanidis P. Fullerene-free organic solar cells with an efficiency of 3.7% based on a low-cost geometrically planar perylene diimide monomer. J Mater Chem A. 2014;2(35):14348-53. 14. Kan Z, Colella L, Canesi EV, Lerario G, Kumar RSS, Bonometti V, et al. Triple bulk heterojunctions as means for recovering the microstructure of photoactive layers in organic solar cell devices. Solar Energy Materials and Solar Cells. 2014;120:37-47. 15. Brambilla A, Calloni A, Aluicio-Sardui E, Berti G, Kan Z, Beaupre? S, et al. X-ray photoemission spectroscopy study of vertical phase separation in F8BT: PDI/ITO films for photovoltaic applications. SPIE NanoScience+ Engineering. 2014:91650C.