André Taylor

André Taylor

Associate Professor

Chemical and Biomolecular Engineering

Journal Articles

F. Antonio, M. Beromi, T. Goh, N. Hazari, J. Kong, M. Mariano, and A.D. Taylor (2017). Colorful polymer solar cells employing an energy transfer dye moleculeNano Energy, 38, 36-42.

T. Goh, D. Huang, T. Goh, J. Kong, A.D. Taylor, Z. Xu, S. Zhou, and Y. Zheng (2017). Perovskite solar cells with a DMSO-treated PEDOT:PSS hole transport layer exhibit higher photovoltaic performance and enhanced durabilityNanoscale, 9, 4236-4243.

G. Doubek, R.C. Sekol, J. Li, E. Moy, S. Nejati, W-H. Ryu, C. Reid, M. Carmo, M. Linardi, E. Kinser, Y. Liu, C.O. Osuji, J. Schroers, S. Mukherjee, and A.D. Taylor (2016), Guided Evolution of Bulk Metallic Glass Nanostructures: A Platform for Designing Three-Dimensional Bicontinuous Electrocatalytic Surfaces, Advanced Materials, accepted

F.S. Gittleson, D. Hwang, W-H Ryu, S. Hashmi, J. Hwang, T. Goh, and A.D. Taylor (2015), Ultrathin Nanotube/Nanowire Electrodes by Spin-Spray Layer-by-Layer Assembly: A Concept for Transparent Energy Storage, ACS Nano, 9 (10), 10005-10017.

F.S. Gittleson, K.P.C. Yao, D.G. Kwabi, S.Y. Sayed, W-H. Ryu, Y. Shao-Horn, and A.D. Taylor (2015), Raman Spectroscopy in Lithium-Oxygen Battery Systems, ChemElectroChem (Invited Mini Review for Special Issue; Very Important Paper), 2 (10), 1426-1426.

W.H. Ryu, F.S. Gittleson, M. Schwab, T. Goh, A.D. Taylor (2015), A Mesoporous Catalytic Membrane Architecture for Lithium-Oxygen Battery Systems, Nano Letters, 15, 434-441. 

T. Goh, J-S. Huang, E. Bielinski, B. Thompson, S. Tomasulo, M. Lee, M. Sfeir, N. Hazari, and A.D. Taylor (2015), Co-evaporated Bi-squaraine Inverted Solar Cells: Enhancement Due to Energy Transfer and Open Circuit Voltage Control, ACS Photonics, 2 (1), 86-95. 

X. Li, L.M. Guard, J. Jiang, K. Sakimoto, J.-S. Huang, J. Wu, J. Li, L. Yu, R. Pokhrel, G.W. Brudvig, S. Ismail-Beigi, N. Hazari and A.D. Taylor (2014), Controlled doping of carbon nanotubes with metallocenes for application in hybrid carbon nanotube/Si solar cells, Nano Letters, 14 (6), 3388–3394. 

J-S. Huang, T. Goh, X. Li, M. Sfeir, E. Bielinski, S. Tomasulo, M. Lee, N. Hazari, and A.D. Taylor (2013), Polymer bulk heterojunction solar cells employing Föerster resonance energy transfer, Nature Photonics, 7, 479–485.

X. Li, Y. Jung, K. Sakimoto, T. Goh, M.A. Reed, and A.D. Taylor (2013), A Systematic Study for High Efficiency Single Walled Carbon Nanotube/Silicon Hybrid Solar Cells, Energy and Environmental Science, 6, 879-887.

R.C. Sekol, G. Kumar, M. Carmo, F.S. Gittleson, N. Hardesty-Dyck, S. Mukherjee, J. Schroers, and A.D. Taylor (2013), Bulk Metallic Glass Micro Fuel Cell, SMALL, 9 (12), 2081-2085. 

M. Carmo, R.C. Sekol, S. Ding, G. Kumar, J. Schroers, and A.D. Taylor (2011), Bulk Metallic Glass Nanowires Architecture for Electrochemical Applications, ACS Nano, Vol. 5, No. 4, 2979-2983. 

Awards + Distinctions

  • Dr. Martin Luther King, Jr. Visiting Associate Professor, MIT, Cambridge, MA. (2014-2015)
  • PECASE - Presidential Early Career Award for Scientists and Engineers (2011)
  • Yale Greer Memorial Prize (2011)
  • NSF CAREER Award (2010-2015)

Research Interests

  • Design and assembly of nanomaterials for energy conversion and storage
  • Applications: Fuel Cells, Solar Cells, Batteries, and Biomass Conversion
  • Layer-by-layer assembly, Inkjet printing technology, thin film deposition
  • MEMs, Microsystems, Micro Energy Conversion Devices, and Advanced Sensors
  • Catalysis, Materials, Semiconductor Processing