# equal contribution *corresponding author
19. R Yanagi,# T Zhao,# D Solanki, Z Pan, S Hu.* Charge Separation in Photocatalysts: Mechanisms, Physical Parameters, and Design Principles. ACS Energy Letters 2021, 7, 432-452
18. T Zhao, A Basu, K Ramasamy, NS Makarov, H McDaniel, CR Kagan.* Heavy‐Metal‐Free Quantum Dot‐Based Flexible Electronics. Information Display 2021, 37 (6), 24-32
17. J Tang, T Zhao, D Solanki, X Miao, W Zhou, S Hu.* Selective hydrogen peroxide conversion tailored by surface, interface, and device engineering. Joule 2021, 5 (6), 1432-1461
16. Q Zhao, G Gouget, J Guo, S Yang, T Zhao, DB Straus, C Qian, N Oh, H Wang, CB Murray, CR Kagan* Enhanced carrier transport in strongly coupled, epitaxially fused CdSe nanocrystal solids. Nano letters 2021, 21 (7), 3318-3324
15. T Zhao, R Yanagi, Y Xu, Y He, Y Song, M Yang, S Hu.* A coating strategy to achieve effective local charge separation for photocatalytic coevolution. Proceedings of the National Academy of Sciences, 2021, 118 (7)
14. X Shen, M Yao, K Sun, T Zhao, Y He, C Chi, C Zhou, PD Dapkus, NS Lewis,* S Hu.* Defect-Tolerant TiO2-Coated and Discretized Photoanodes for >600 h of Stable Photoelectrochemical Water Oxidation. ACS Energy Letters 2020, 6 (1), 193-200
13. J-H Kang, B Li, T Zhao, MA Johar, C-C Lin, Y-H Fang, W-H Kuo, K-L Liang, S Hu, S-W Ryu, J Han.* RGB arrays for micro-light-emitting diode applications using nanoporous GaN embedded with quantum dots. ACS Applied Materials & Interfaces 2020, 12 (27), 30890-30895
12. T Zhao, N Oh, D Jishkariani, M Zhang, H Wang, N Li, JD Lee, C Zeng, M Muduli, H-J Choi, D Su, CB Murray, CR Kagan.* General Synthetic Route to High-Quality Colloidal III–V Semiconductor Quantum Dots Based on Pnictogen Chlorides. Journal of the American Chemical Society 2019, 141 (38), 15145-15152
11. H Yang, E Wong, T Zhao, JD Lee, HL Xin, M Chi, B Fleury, H-Y Tang, EA Gaulding, CR Kagan, CB Murray* Charge Transport Modulation in PbSe Nanocrystal Solids by AuxAg1–x Nanoparticle Doping. ACS Nano 2018, 12 (9), 9091-9100
10. Q Zhao,# T Zhao,# J Guo, W Chen, M Zhang, CR Kagan.* The Effect of Dielectric Environment on Doping Efficiency in Colloidal PbSe Nanostructures. Journal of the American Chemical Society ACS Nano 2018, 12 (2), 1313-1320
9. Y Wu, S Li, N Gogotsi, T Zhao, B Fleury, CR Kagan, CB Murray,* JB Baxter.* Directional Carrier Transfer in Strongly Coupled Binary Nanocrystal Superlattice Films Formed by Assembly and in Situ Ligand Exchange at a Liquid–Air Interface. The Journal of Physical Chemistry C 2017, 121 (8), 4146-4157
8. SJ Oh, DB Straus, T Zhao, J-H Choi, S-W Lee, EA Gaulding, CB Murray, CR Kagan.* Engineering the surface chemistry of lead chalcogenide nanocrystal solids to enhance carrier mobility and lifetime in optoelectronic devices. Chemical Communications 2017, 53 (4), 728-731
7. T Zhao, ED Goodwin, J Guo, H Wang, BT Diroll, CB Murray, CR Kagan.* Advanced architecture for colloidal PbS quantum dot solar cells exploiting a CdSe quantum dot buffer layer. ACS Nano 2016, 10 (10), 9267-9273
6. J-H Choi, H Wang, SJ Oh, T Paik, P Sung, J Sung, X Ye, T Zhao, BT Diroll, CB Murray, CR Kagan.* Exploiting the colloidal nanocrystal library to construct electronic devices. Science 2016, 352 (6282), 205-208
5. SJ Oh, C Uswachoke, T Zhao, JH Choi, BT Diroll, CB Murray, CR Kagan.* Selective p-and n-doping of colloidal PbSe nanowires to construct electronic and optoelectronic devices. ACS Nano 2015, 9 (7), 7536-7544
4. SJ Oh, Z Wang, NE Berry, J-H Choi, T Zhao, EA Gaulding, T Paik, Y Lai, CB Murray, CR Kagan.* Engineering charge injection and charge transport for high performance PbSe nanocrystal thin film devices and circuits. Nano Letters 2014, 14 (11), 6210-6216
3. J-H Choi, SJ Oh, Y Lai, DK Kim, T Zhao, AT Fafarman, BT Diroll, CB Murray, CR Kagan.* In Situ Repair of High-Performance, Flexible Nanocrystal Electronics for Large-Area Fabrication and Operation in Air. ACS Nano 2013, 7 (9), 8275-8283
2. X Li, T Zhao, Q Chen, P Li, K Wang, M Zhong, J Wei, D Wu, B Wei, H Zhu.* Flexible all solid-state supercapacitors based on chemical vapor deposition derived graphene fibers. Physical Chemistry Chemical Physics 2013, 15 (41), 17752-17757
1. X Li, T Zhao, K Wang, Y Yang, J Wei, F Kang, D Wu, H Zhu.* Directly drawing self-assembled, porous, and monolithic graphene fiber from chemical vapor deposition grown graphene film and its electrochemical properties. Langmuir 2011, 27 (19), 12164-12171