Personal Details

This page is maintained by .

Dr. Wu Mengfei

Scientist I

Staff

Advanced Optical Technologies (AOT) Department

6319 4901

Wu_Mengfei@imre.a-star.edu.sg

2 Fusionopolis Way, Innovis, #08-03 Singapore 138634


Research Details


  Optoelectronics /Nanophotonics /Nanomaterials

  Thin-film device fabrication /Optical characterisation

  Dielectric nanoantennas

  Oct 2018 - Present :  Research Scientist @IMRE, Advanced Optical Technologies

  Jul 2012 - Jul 2013 :  Research Specialist @IMRE, Printed Electronics

  Ph.D. in Electrical Engineering (2018) :  Massachusetts Institute of Technology, US

  M.Eng. in Electrical Engineering (2012) :  University of Cambridge, UK

  B.A. Honours in Engineering (2011) :  University of Cambridge, UK

  Banting Postdoctoral Fellowship by the Government of Canada (2019-2021)

  Best Paper, Symposium on Luminescent Materials for Photon Upconversion, MRS Spring Meeting (2017)

  A*STAR National Science Scholarship (NSS-BS, NSS-PhD), full support for undergraduate & PhD studies
  (2008-2018)

  Adams Prize (2012), Powrie Scholarship (2011 & 2010), and Harrison Prize (2009) for top performance
  in Engineering at Selwyn College, University of Cambridge

  Chairman's Honours List for outstanding A*STAR NSS scholars (2009, 2010, 2012)

 1.  L. Nienhaus, J-P. Correa-Baena, S. Wieghold, M. Einzinger, T-A. Lin, K.E. Shulenberger, N.D. Klein,
 M. Wu, V. Bulovic, T. Buonassisi, M.A. Baldo, M.G. Bawendi.  Triplet-senitization by lead halide perovskite
 thin films for near-infrared-to-visible upconversion.  ACS Energy Letters 4, 888-895 (2019).

 2.  L. Nienhaus*, M. Wu*, V. Bulović, M.A. Baldo & M.G. Bawendi. Using lead chalcogenide nanocrystals
 as spin mixers: a perspective on infrared-to-visible upconversion. Dalton Transactions 47, 8509-8516 (2018).
 * Equal contribution


 3.  L. Nienhaus, M. Wu, N. Geva, J.J. Shepherd, M.W.B. Wilson, V. Bulović, T. Van Voorhis, M.A. Baldo
 & M.G. Bawendi. A speed limit for triplet-exciton transfer in solid-state PbS nanocrystal-sensitized photon
 upconversion. ACS Nano 11, 7848–7857 (2017).

 4.  M. Wu, J. Jean, V. Bulović & M.A. Baldo. Interference-enhanced infrared-to-visible upconversion
 in solid-state thin films sensitized by colloidal nanocrystals. Applied Physics Letters 110, 211101 (2017).

 5.  M. Wu*, D.N. Congreve*, M.W.B. Wilson*, J. Jean, N. Geva, M. Welborn, T. Van Voorhis, V. Bulović,
 M.G. Bawendi & M.A. Baldo. Solid-state infrared-to-visible upconversion sensitized by colloidal nanocrystals.
 Nature Photonics 10, 31–34 (2016).

 6.  T.J. Echtermeyer, S. Milana, U. Sassi, A. Eiden, M. Wu, E. Lidorikis & A.C. Ferrari. Surface plasmon
 polariton graphene photodetectors. Nano Letters 16, 8–20 (2016).

 7.  N.J. Thompson*, M.W.B. Wilson*, D.N. Congreve*, P.R. Brown, J.M. Scherer, T.S. Bischof, M. Wu,
 N. Geva, M. Welborn, T. Van Voorhis, V. Bulović, M.G. Bawendi & M.A. Baldo. Energy harvesting
 of non-emissive triplet excitons in tetracene by emissive PbS nanocrystals. Nature Materials 13,
 1039–1043 (2014).

 1.  M.A. Baldo, D.N. Congreve, N.J. Thompson, M.W.B. Wilson, M. Wu, M.G. Bawendi & V. Bulović. Methods
 and compositions for the upconversion of light. US Patent No. 9,944,847, filed 16 February 2016,
 issued 17 April 2018.

 2.  D.N. Congreve, N.J. Thompson, M.W.B. Wilson, M. Wu, M.A. Baldo, M.G. Bawendi & V. Bulović. Compositions
 and methods for the downconversion of light. US Patent Application No. 15/045,011, filed 16 February 2016.

Last updated on : 05 Jul 2019 03:39 PM