Donal Bradley
Honorary Professor
Institute of Advanced Materials
The Institute of Advanced Materials
China
Biography
1983: First class Bachelor degree, Imperial College of Science and Technology. 1987: PhD degree, Cambridge.
Research Interest
Research Interests Professor Bradley's research focuses on the physics and application of molecular electronic materials and devices, a subject highlighted in successive International Reviews of UK Physics and Materials research as having produced outputs of the highest quality. Professor Bradley's contributions to the subject have led to wide-ranging publications that address both fundamental and more applied topics, and that place him amongst the 1% most highly cited physicists and materials scientists in the world (ISI Highly Cited Scientist). He has an h-index of 89 (m = 3.07), having thus far published some 548 ISI listed publications with> 44,200 citations (ISI Web of Knowledge). He is a co-inventor of conjugated polymer electroluminescence, co-founder of Cambridge Display Technology Ltd, co-founder and formerly Director of Molecular Vision Ltd, member of C-Change (UK) LLP and Director of Solar Press Ltd with more than twenty five patent families to his name. (Source from Imperial College London)
Publications
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3. Niu Q, Zhang Q, Xu W, Jiang Y, Xia R, Bradley DDC, Li D, Wen Xet al., Solution-processed anthracene-based molecular glasses as stable blue-light-emission laser gain media, Organic Electronics, 2015, 18, 95-100.
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2. Nam S, Woo S, Seo J, Kim WH, Kim H, McNeill CR, Shin TJ, Bradley DDC, Kim Yet al., Pronounced Cosolvent Effects in Polymer:Polymer Bulk Heterojunction Solar Cells with Sulfur-Rich Electron-Donating and Imide-Containing Electron-Accepting Polymers, ACS Applied Materials & Interfaces, 2015, 7, 15995-1600
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1. Hermerschmidt F, Kalogirou AS, Min J, Zissimou GA, Tuladhar SM, Ameri T, Faber H, Itskos G, Choulis SA, Anthopoulos TD, Bradley DDC, Nelson J, Brabec CJ, Koutentis PA, et al., 4H-1,2,6-Thiadiazin-4-one-containing small molecule donors and additive effects on their performance in solution-processed organic solar cells, Journal of Materials Chemistry C, 2015, 3, 2358-2365.
