J
Jeong Hoon Ko
Researcher at University of California, Los Angeles
Publications - 13
Citations - 797
Jeong Hoon Ko is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Trehalose & Self-healing hydrogels. The author has an hindex of 10, co-authored 13 publications receiving 458 citations. Previous affiliations of Jeong Hoon Ko include California Institute of Technology & California NanoSystems Institute.
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Journal ArticleDOI
Tuning Molecular Interactions for Highly Reproducible and Efficient Formamidinium Perovskite Solar Cells via Adduct Approach
Jin-Wook Lee,Zhenghong Dai,Changsoo Lee,Hyuck Mo Lee,Tae Hee Han,Nicholas De Marco,Oliver Lin,Christopher S. Choi,Bruce Dunn,Jaekyung Koh,Dino Di Carlo,Jeong Hoon Ko,Heather D. Maynard,Yang Yang +13 more
TL;DR: An efficient and reproducible method to fabricate highly uniform FAPbI3 films via the adduct approach with a stronger interaction between NMP with the FA cation than DMSO, which facilitates the formation of a stable FAI·PbI2·NMP adduct.
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Shallow Iodine Defects Accelerate the Degradation of α-Phase Formamidinium Perovskite
Shaun Tan,Ilhan Yavuz,Marc H. Weber,Tianyi Huang,Chung Hao Chen,Chung Hao Chen,Rui Wang,Hao Cheng Wang,Hao Cheng Wang,Jeong Hoon Ko,Selbi Nuryyeva,Jingjing Xue,Yepin Zhao,Kung-Hwa Wei,Jin-Wook Lee,Yang Yang +15 more
TL;DR: In this article, the authors show that shallow iodine interstitial defects (I i ) can be generated unintentionally during commonly used post-fabrication treatments, which can lower the cubic-to-hexagonal transformation barrier of FAPbI3-based perovskites to accelerate its phase degradation.
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A guide to maximizing the therapeutic potential of protein-polymer conjugates by rational design.
Jeong Hoon Ko,Heather D. Maynard +1 more
TL;DR: This review presents various considerations in synthesizing protein-polymer conjugates for therapeutic applications with a focus on the choice of polymer, protein, and conjugation method, as well as characterization and evaluation of the resulting conjugate in order to maximize the therapeutic potential of the protein drug.
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Trehalose Glycopolymer Enhances Both Solution Stability and Pharmacokinetics of a Therapeutic Protein
Yang Liu,Juneyoung Lee,Kathryn M. Mansfield,Jeong Hoon Ko,Sahar Sallam,Chrys Wesdemiotis,Heather D. Maynard +6 more
TL;DR: A polymer with trehalose side chains (PolyProtek) is reported that is capable of improving both the external stability and the in vivo plasma half-life of a therapeutic protein.
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Trehalose hydrogels for stabilization of enzymes to heat
TL;DR: The trehalose-based hydrogel synthesized in two steps from commercial starting materials with minimal purification procedures should be readily scalable for thermal stabilization of a wide variety of enzymes.