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9. S. Yeager "SPECS Researchers Use Resonant X-ray Diffraction to Better Understand Ion Location in Doped Polymers." Frontiers in Energy Research Newsletter, Winter 2024, SPECS Researchers Use Resonant X-ray Diffraction to Better Understand Ion Location in Doped Polymers | Energy Frontier Research Center
8. T.J. Quill, G. LeCroy, A. Marks, S.A. Hesse, Q. Thiburce, I. McCulloch, C.J. Tassone, C.J. Takacs, A. Giovannitti, A. Salleo. "Charge carrier induced ordering and degradation in organic ionic electronic conductors." Advanced Materials, January 10, 2024, https://doi.org/10.1002/adma.202310157
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![Beyond n-dopants for organic semiconductors: use of bibenzo[d]imidazoles in UV-promoted dehalogenation reactions of organic halides](/sites/default/files/styles/az_medium/public/2024-01/Beyond%20n%20dopants%20for%20organic%20semiconductors.jpg?itok=tebmFC7h)
6. A.A. Mohapatra, W.K. Yual, Y. Zhang, A.A. Samoylov, J. Thurston, C.M. Davis, D.P. McCarthy, A. Printz, M.F. Toney, E.L. Ratcliff, N.R. Armstrong, A.L. Greenaway, S. Barlow, S.R. Marder. "Reducing delamination of an electron-transporting polymer from a metal oxide for electrochemical applications." Chemical Communications, 2024, 60, 988 - 991. https://doi.org/10.1039/D3CC05391A
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4. L.Q. Flagg, J.W. Onorato, C.K. Luscombe, V. Bhat, C. Risko, B. Levy-Wendt, M.F. Toney, C.R. McNeill, G. Freychet, M. Zhernenkov, R. Li, & L.J. Richter. "Resonant X-ray Diffraction Reveals the Location of Counterions in Doped Organic Mixed Ionic Conductors." Chem. Mater, 2023, 35, 10, 3960-3967, https://doi.org/10.1021/acs.chemmater.3c00180
2023 American Chemical Society
3. V.N. Le, J.H. Bombile, G.S. Rupasinghe, K.N. Baustert, R. Li, I.P. Maria, M. Shahi, P. Alarcon Espejo, I. McCulloch, K.R. Graham, C. Risko & A.F. Paterson. "New Chemical Dopant and Counterion Mechanism for Organic Electrochemical Transistors and Organic Mixed Ionic–Electronic Conductors." Advanced Science (2023), 2207694. DOI: 10.1002/advs.202207694
2023 Advanced Science issue 2207694
2. Lungwitz, D., Joy, S., Mansour, A.E., Opitz, A., Karunasena, C., Li, H., Panjwani, N.A., Moudgil, K., Tang, K., Behrends, J., Barlow, S., Marder, S., Bredas, J.-L., Graham, K., Koch, N., & Kahn, A. (2023). “Spectral Signatures of a Negative Polaron in a Doped Polymer Semiconductor: Energy Levels and Hubbard U Interactions.” The Journal of Physical Chemistry Letters 14(24): 5633-5640.
![Here, we provide evidence by n-doping the polymer P(NDI2OD-T2) with [RhCp*Cp]2, [N-DMBI]2, and cesium.](/sites/default/files/styles/az_small/public/2023-08/Spectral%20signatures%20of%20a%20negative%20polaron%20in%20a%20doped%20polymer%20semiconductor.jpeg?itok=Ix_rRcm8)
J. Phys.Chem. Lett. 2023, 14, 24, 5633-5640
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Chem. Mater. 2023, 35, 15, 5886-5694