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Woo, Hyun-Myung ; Allam, Omar ; Chen, Junhe ; Jang, Seung Soon ; Yoon, Byung-Jun ( , iScience)
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Jin, Shikai ; Allam, Omar ; Jang, Seung Soon ; Lee, Seung Woo ( , InfoMat)
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Bromine Incorporation Affects Phase Transformations and Thermal Stability of Lead Halide PerovskitesLaFollette, Diana_K ; Hidalgo, Juanita ; Allam, Omar ; Yang, Jonghee ; Shoemaker, Austin ; Li, Ruipeng ; Lai, Barry ; Lawrie, Benjamin ; Kalinin, Sergei ; Perini, Carlo_A_R ; et al ( , Journal of the American Chemical Society)
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Jin, Shikai ; Allam, Omar ; Lee, Kyungbin ; Lim, Jeonghoon ; Lee, Michael J. ; Loh, Sze Hou ; Jang, Seung Soon ; Lee, Seung Woo ( , Small)
Abstract Organic materials with redox‐active oxygen functional groups are of great interest as electrode materials for alkali‐ion storage due to their earth‐abundant constituents, structural tunability, and enhanced energy storage properties. Herein, a hybrid carbon framework consisting of reduced graphene oxide and oxygen functionalized carbon quantum dots (CQDs) is developed via the one‐pot solvothermal reduction method, and a systematic study is undertaken to investigate its redox mechanism and electrochemical properties with Li‐, Na‐, and K‐ions. Due to the incorporation of CQDs, the hybrid cathode delivers consistent improvements in charge storage performance for the alkali‐ions and impressive reversible capacity (257 mAh g−1at 50 mA g−1), rate capability (111 mAh g−1at 1 A g−1), and cycling stability (79% retention after 10 000 cycles) with Li‐ion. Furthermore, density functional theory calculations uncover the CQD structure‐electrochemical reactivity trends for different alkali‐ion. The results provide important insights into adopting CQD species for optimal alkali‐ion storage.