Publications

Full list of publications can be found on Google Scholar

25) Radical Spin Polarization and Magnetosensitivity from Reversible Energy Transfer, J. M. Hudson, E. W. Evans, Journal of Physical Chemistry Letters 2024, 15(15), 4130-4135

24) Efficient near-infrared organic light-emitting diodes with emission from spin doublet excitons, H. Cho, S. Gorgon, G. Londi, S. Giannini, C. Cho, P. Ghosh, C. Tonnele, D. Casanova, Y. Olivier, T. K. Baikie, F. Li*, D. Beljonne, N. C. Greenham, R. H. Friend, E. W. Evans, Nature Photonics 2024, 18, 905-912

23) Fast transfer of triplet to doublet excitons from organometallic host to organic radical semiconductors, Q. Gu, S. Gorgon, A. S. Romanov, F. Li, R. H. Friend, E. W. Evans, Advanced Materials 2024, 2402790, 2024

22) Reversible spin-optical interface in luminescent organic radicals, S. Gorgon, K. Lv, J. Gruene, B. H. Drummond, W. K. Myers, G. Londi, G. Ricci, D. Valverde, C. Tonnele, P. Murto, A. S. Romanov, D. Casanova, V. Dyakonov, A. Sperlich, D. Beljonne, Y. Olivier, F. Li, R. H. Friend, E. W. Evans, Nature 2023, 620, 538-544

21) Efficient and bright organic radical light-emitting diodes with low efficiency roll-off, H.-H. Cho, S. Gorgon, H.-C. hung, J.-Y. Huang, Y.-R. Wu, F. Li, N. C. Greenham, E. W. Evans, R. H. Friend, Advanced Materials 2023, 2303666

20) Near-infrared light-emitting diodes from organic radicals with charge control, H.-H. Cho, S. Kimura, N. C. Greenham, Y. Tani, R. Matsuoka, H. Nishihara, R. H. Friend, T. Kusamoto, E. W. Evans, Advanced Optical Materials 2022, 10(21), 2200628

19) Singlet and triplet to doublet energy transfer: improving organic light-emitting diodes with radicals, F. Li, A. J. Gillett, Q. Gu, J. Ding, Z. Chen, T. J. H. Hele, W. K. Myers, R. H. Friend, E. W. Evans, Nature Communications 2022, 13(1), 2744

18) Dielectric control of reverse intersystem crossing in thermally activated delayed fluorescence emitters, A. J. Gillett, A. Pershin, R. Pandya, S. Feldmann, A. J. Sneyd, A. M. Alvertis, E. W. Evans, T. H. Thomas, L.-S. Cui, B. H. Drumoond, G. D. Schoes, Y. Olivier, A. Rao, R. H. Friend, D. Beljonne, Nature Materials 2022, 21(10), 1150-1157

17) A. J. Gillett, C. Tonnele, G. Londi, G. Ricci, M. Catherin, D. M. L. Unson, D. Casanova, F. Castet, Y. Olivier, W. M. Chen, E. Zabarova, E. W. Evans, B. H. Drummond, P. J. Conaghan, L.-S. Cui, N. C. Greenham, Y. Puttisong, F. Fages, D. Beljonne, R. H. Friend, Spontaneous exciton dissociation enables spin state interconversion in delayed fluorescence organic semiconductors, 2021, Nature Communications, 12, 6640

16) B. H. Drummond, N. Aizawa, Y. Zhang, W. K. Myers, Y. Xiong, M. W. Cooper, S. Barlow, Q. Gu, L. R. Weiss, A. J. Gillett, D. Credgington, Y.-J- Pu, S. R. Marder, E. W. Evans, Electron spin resonance resolves intermediate triplet states in delayed fluorescence, 2021, Nature Communications, 12, 4532

15) J. M. Hudson, T. J. Hele, E. W. Evans, Efficient light-emitting diodes from organic radicals with doublet emission, 2021, Journal of Applied Physics, 129, 180901

14) A. Abdurahman, T. J. Hele, Q. Gu, J. Zhang, Q. Peng, M. Zhang, R. H. Friend, F. Li, E. W. Evans, Understanding the luminescent nature of organic radicals for efficient doublet emitters and pure-red light-emitting diodes, 2020, Nature Materials, 19(11), 1224-1229

13) L.-S. Cui, A. J. Gillett, S.-F. Zhang, H. Ye, Y. Liu, X.-K. Chen, Z.-S. Lin, E. W. Evans, W. K. Myers, T. K. Ronson, H. Nakanotani, S. Reineke, J.-L. Bredas, C. Adachi, R. H. Friend, Fast spin-flip enables efficient and stable organic electroluminescence from charge-transfer states, 2020, Nature Photonics, 14(10), 636-642

12) L. Ascherl, E. W. Evans, J. Gorman, S. Orsborne, D. Bessinger, T. Bein, R. H. Friend, F. Auras, Perylene-based covalent organic frameworks for acid vapor sensing, 2019, Journal of the American Chemical Society, 141(39), 15693-15699

11) H. Guo, Q. Peng, X.-K. Chen, Q. Gu, S. Dong, E. W. Evans, A. J. Gillett, X. Ai, M. Zhang, D. Credgington, V. Coropceanu, R. H. Friend, J.-L. Bredas, F. Li, High stability and luminescence efficiency in donor-acceptor neutral radicals not following the Aufbau principle, 2019, Nature Materials, 18(9), 977-984

10) S. Montanaro, A. J. Gillett, S. Feldmann, E. W. Evans, F. Plasser, R. H. Friend, I. A. Wright, Red-shifted delayed fluorescence at the expense of photoluminescence quantum efficiency - an intramolecular charge-transfer molecule based on benzodithiophene-4,8-dione acceptor, 2019, Physical Chemistry Chemical Physics, 21(20), 10580-10586

9) X. Ai, E. W. Evans, S. Dong, A. J. Gillett, H. Guo, Y. Chen, T. J. Hele, R. H. Friend, F. Li, Efficient radical-based light-emitting diodes with doublet emission, 2018, Nature, 563(7732), 536-540

8) L. Ascherl, E. W. Evans, M. Hennemann, D. Di Nuzzo, A. G. Hufnagel, M. Beetz, R. H. Friend, T. Clark, T. Bein, F. Auras, Solvatochromic covalent organic frameworks, 2018, Nature Communications, 9(1), 1-8

7) P. J. Conaghan, S. M. Menke, A. S. Romanov, S. T. E. Jones, A. J. Pearson, E. W. Evans, M. Bochmann, N. C. Greenham, D. Credgington, Efficient vacuum-processed light-emitting diodes based on carbene-metal-amides, 2018, Advanced Materials, 30(35), 1802285

6) J. L. Greenfield, E. W. Evans, D. Di Nuzzo, M. Di Antonio, R. H. Friend, J. R. Nitschke, Unraveling mechanisms of chiral induction in double-helical metallopolymers, 2018, Journal of American Chemical Society, 140(32), 10344-10353

5) E. W. Evans, Y. Olivier, Y. Puttisong, W. K. Myers, T. J. Hele, S. M. Menke, T. H. Thomas, D. Credgington, D. Beljonne, R. H. Friend, N. C. Greenham, Vibrationally assisted intersystem crossing in benchmark thermally activated delayed fluorescence molecules, 2018, The Journal of Physical Chemistry Letters, 9(14), 4053-4058

4) E. W. Evans, D. R. Kattnig, K. B. Henbest, P. J. Hore, S. R. Mackenzie, C. R. Timmel, Sub-millitesla magnetic field effects on the recombination reaction of flavin and ascorbic acid radicals, 2016, The Journal of Chemical Physics, 145(8), 085101

3) D. R. Kattnig, E. W. Evans, V. Dejean, C. A. Dodson, M. I. Wallace, S. R. Mackenzie, C. R. Timmel, P. J. Hore, Chemical amplification of magnetic field effects relevant to avian magnetoreception, 2016, Nature Chemistry, 8(4), 384-391

2) E. W. Evans, J. Li, J. G. Storey, K. Maeda, K. B. Henbest, C. A. Dodson, P. J. Hore, S. R. Mackenzie, C. R. Timmel*, Sensitive fluorescence-based detection of magnetic field effects in photoreactions of flavins, 2015, Physical Chemistry Chemical Physics, 17(28), 18456-18463

1) E. W. Evans, C. A. Dodson, K. Maeda, T. Biskup, C. J. Wedge, C. R. Timmel, Magnetic field effects in flavoproteins and related systems, 2013, Interface Focus, 3(5), 20130037