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Cha, Chaenyung (차채녕)

Department
Department of Materials Science and Engineering(신소재공학과)
Website
http://ccha.unist.ac.kr
Lab
Integrative Biomaterials Engineering Lab. (생명공학소재 연구실)
Research Keywords
생체소재, 조직공학, 약물전달, 바이오센서, 생명공학, Biomaterials, nanocomposites, tissue engineering, microfabrication
Research Interests
Our mission is to develop state-of-the-art biomaterials based on multi-functional biopolymers and nano- & micro-structures that are innovative and yet also practical for various biomedical applications, such as tissue engineering, drug delivery, and biosensors. To realize our goal, we are using highly interdisciplinary research efforts, encompassing the principles of organic chemistry, physics, biochemistry, materials science and engineering. We aim to achieve groundbreaking discoveries that can have a huge impact on our lives, and develop the next generation of scientists and engineers.
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2021-01Dual-functional alginate crosslinker: Independent control of crosslinking density and cell adhesive properties of hydrogels via separate conjugation pathwaysChoi, Cholong; Kim, Suntae; Cha, ChaenyungARTICLE34 Dual-functional alginate crosslinker: Independent control of crosslinking density and cell adhesive properties of hydrogels via separate conjugation pathways
2020-09Graft Architecture Guided Simultaneous Control of Degradation and Mechanical Properties of In Situ Forming and Fast Dissolving Polyaspartamide HydrogelsKim, Mirae; Cha, ChaenyungARTICLE29 Graft Architecture Guided Simultaneous Control of Degradation and Mechanical Properties of In Situ Forming and Fast Dissolving Polyaspartamide Hydrogels
2020-07Cell subtype-dependent formation of breast tumor spheroids and their variable responses to chemotherapeutics within microfluidics-generated 3D microgels with tunable mechanicsLee, Dongjin; Cha, ChaenyungARTICLE107 Cell subtype-dependent formation of breast tumor spheroids and their variable responses to chemotherapeutics within microfluidics-generated 3D microgels with tunable mechanics
2020-07Advanced Polymer-Based Bioink Technology for Printing Soft BiomaterialsLee, Kangseok; Cha, ChaenyungARTICLE53 Advanced Polymer-Based Bioink Technology for Printing Soft Biomaterials
2020-04Refined fabrication of mechano-stimulating micro-platform for on-chip analyses of complex platelet behaviorKim, Hyojae; Song, Chulgyu; Cha, Chaenyung, et alARTICLE142 Refined fabrication of mechano-stimulating micro-platform for on-chip analyses of complex platelet behavior
2020-03Polymer meets ceramic: Polymer-driven advancement of ceramic 3D printing technologyCha, ChaenyungARTICLE0
2020-02In situ facile-forming chitosan hydrogels with tunable physicomechanical and tissue adhesive properties by polymer graft architectureKim, Mirae; Ahn, Yujin; Lee, Kangseok, et alARTICLE228 In situ facile-forming chitosan hydrogels with tunable physicomechanical and tissue adhesive properties by polymer graft architecture
2020-01Enhanced mechanical and electrical properties of heteroscaled hydrogels infused with aqueous-dispersible hybrid nanofibersKim, Suntae; Cha, ChaenyungARTICLE207 Enhanced mechanical and electrical properties of heteroscaled hydrogels infused with aqueous-dispersible hybrid nanofibers
2019-11Cellulose acetate nanoneedle array covered with phosphorylcholine moiety as a biocompatible and sustainable antifouling materialPark, Hyun-Ha; Sun, Kahyun; Lee, Dongjin, et alARTICLE458 Cellulose acetate nanoneedle array covered with phosphorylcholine moiety as a biocompatible and sustainable antifouling material
2019-10Implementation of combinatorial genetic and microenvironmental engineering to microbial-based field-deployable microbead biosensors for highly sensitive and remote chemical detectionLee, Kangseok; Choi, Sunho; Kim, Chuntae, et alARTICLE259 Implementation of combinatorial genetic and microenvironmental engineering to microbial-based field-deployable microbead biosensors for highly sensitive and remote chemical detection
2019-07Comprehensive tuning of bioadhesive properties of polydimethylsiloxane (PDMS) membranes with controlled porosityJang, Yeonseok; Lee, Minseok; Kim, Hyojae, et alARTICLE262 Comprehensive tuning of bioadhesive properties of polydimethylsiloxane (PDMS) membranes with controlled porosity
2019-04Fluorescence Enhancement from Nitro-Compound-Sensitive Bacteria within Spherical Hydrogel ScaffoldsKim, Soohyun; Kim, Hyunji; Qiao, Tian, et alARTICLE285 Fluorescence Enhancement from Nitro-Compound-Sensitive Bacteria within Spherical Hydrogel Scaffolds
2019-03Complex Tuning of Physical Properties of Hyperbranched Polyglycerol‐Based Bioink for Microfabrication of Cell‐Laden HydrogelsHong, Jisu; Shin, Yoonkyung; Kim, Suntae, et alARTICLE308 Complex Tuning of Physical Properties of Hyperbranched Polyglycerol‐Based Bioink for Microfabrication of Cell‐Laden Hydrogels
2018-12Microfluidics‐Assisted Fabrication of Microtissues with Tunable Physical Properties for Developing an In Vitro Multiplex Tissue ModelLee, Dongjin; Lee, Kangseok; Cha, ChaenyungARTICLE310 Microfluidics‐Assisted Fabrication of Microtissues with Tunable Physical Properties for Developing an In Vitro Multiplex Tissue Model
2018-12Interfacial Compression-Dependent Merging of Two Miscible Microdroplets in an Asymmetric Cross-Junction for In Situ Microgel FormationJang, Yeongseok; Cha, Chaenyung; Jung, Jinmu, et alARTICLE400 Interfacial Compression-Dependent Merging of Two Miscible Microdroplets in an Asymmetric Cross-Junction for In Situ Microgel Formation
2018-11The Combined Effects of Co-Culture and Substrate Mechanics on 3D Tumor Spheroid Formation within Microgels Prepared via Flow-Focusing Microfluidic FabricationLee, Dongjin; Cha, ChaenyungARTICLE368 The Combined Effects of Co-Culture and Substrate Mechanics on 3D Tumor Spheroid Formation within Microgels Prepared via Flow-Focusing Microfluidic Fabrication
2018-06Integrative control of mechanical and degradation properties of in situ crosslinkable polyamine-based hydrogels for dual-mode drug release kineticsKim, Mirae; Cha, ChaenyungARTICLE663 Integrative control of mechanical and degradation properties of in situ crosslinkable polyamine-based hydrogels for dual-mode drug release kinetics
2018-05Wet-Responsive, Reconfigurable, and Biocompatible Hydrogel Adhesive Films for Transfer Printing of NanomembranesYi, Hoon; Seong, Minho; Sun, Kahyun, et alARTICLE692 Wet-Responsive, Reconfigurable, and Biocompatible Hydrogel Adhesive Films for Transfer Printing of Nanomembranes
2018-03Modulation of functional pendant chains within poly(ethylene glycol) hydrogels for refined control of protein releaseKim, Mirae; Cha, ChaenyungARTICLE725 Modulation of functional pendant chains within poly(ethylene glycol) hydrogels for refined control of protein release
2018-02Multivalent Polyaspartamide Cross-Linker for Engineering Cell-Responsive Hydrogels with Degradation Behavior and Tunable Physical PropertiesJang, Jinhyeong; Cha, ChaenyungARTICLE568 Multivalent Polyaspartamide Cross-Linker for Engineering Cell-Responsive Hydrogels with Degradation Behavior and Tunable Physical Properties

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