Organic-Inorganic Nanoscale Optoelectronics

Department of Electrical and Electronic Engineering, The University of Hong Kong



Welcome to

Organic-Inorganic Nanoscale Optoelectronics


Our Work Selected as Cover of Journals

Advanced Functional Materials Cover 1 Advanced Energy Materials Cover 2 Advanced Functional Materials Cover 3 Organic Solar Cells Cover 4
ChemComm Cover 6 Advanced Functional Materials Cover 7 Advanced Optical Materials Cover 8 Nanoscale Cover 9
Advanced Functional Materials Cover 10 Advanced Energy Materials Cover 5 Small Cover 12
Advanced Material 13 Advanced Energy Material 6


Some of Our Results

  1. Angular Response of Thin-Film Organic Solar Cells With Periodic Metal Back Nanostrips
  2. Using Au nanoclusters (no PEDOT) as hole collection interface layer
  3. Magnetic Field Effects on the Electroluminescence of OLEDs: A Tool to Indicate the Carrier Mobility
  4. Enhancement of Solar Cell Performance: Plasmons
  5. High Performance OLEDs: Efficiency Enhancement
  6. High Performance OLEDs: Efficiency Roll-off Reduction
  7. Hybrid Organic/Nanoparticle Devices with Record-high Resonant Tunneling Behavior
  8. Detailed Studies of Absolute Optical Properties (Refractive Index and Absorption Coefficient)
  9. Real-time Color Tunable Organic LEDs
  10. High Performance OLEDs: Theoretical Analysis of Device Structures
  11. Extract Critical Parameters of LEDs Internal Quantum Efficiency