Cha, Chaenyung
차채녕
Department of Materials Science and Engineering(신소재공학과)
- Integrative Biomaterials Engineering Lab.
- Website
- Research Interests
- Biomaterials;nanocomposites;tissue engineering;microfabrication;생체소재;조직공학;약물전달;바이오센서;생명공학
- Lab Description
- 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.
Ultrasound standing wave spatial patterning of human umbilical vein endothelial cells for 3D micro-vascular networks formation
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Issue Date2024-01
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Issue Date2024-01
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Flexible, Biodegradable, and Wireless Magnetoelectric Paper for Simple In Situ Personalization of Bioelectric Implants
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Issue Date2024-01
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Issue Date2023-12
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Manipulating Physicochemical Properties of Biosensor Platform with Polysuccinimide-Silica Nanocomposite for Enhanced Protein Detection
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Issue Date2023-11
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Exploring stimuli-responsive elastin-like polypeptide for biomedicine and beyond: potential application as programmable soft actuators
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Issue Date2023-10
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Issue Date2023-10
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Issue Date2023-05
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Tunable Physicomechanical and Drug Release Properties of In Situ Forming Thermoresponsive Elastin-like Polypeptide Hydrogels
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Issue Date2022-12
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Chitosan-functionalized silica nanoparticles as a multifunctional coating material for improved water repellency, antimicrobial activity and mechanical strength of degradable bioplastics
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Issue Date2022-09
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Multiscale Engineering of Nanofiber-Aerogel Composite Nanogenerator with Tunable Triboelectric Performance Based on Multifunctional Polysuccinimide
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Issue Date2022-09
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Precision Control of Programmable Actuation of Thermoresponsive Nanocomposite Hydrogels with Multilateral Engineering
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Issue Date2022-05
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Aziridine-Capped Poly(ethylene glycol) Brush Copolymers with Tunable Architecture as Versatile Cross-Linkers for Adhesives
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Issue Date2022-03
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Mechanotopography-Driven Design of Dispersible Nanofiber-Laden Hydrogel as a 3D Cell Culture Platform for Investigating Tissue Fibrosis
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Issue Date2021-11
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Comprehensive Enhancement of Mechanical, Water-Repellent and Antimicrobial Properties of Regenerated Seaweed and Plant-Based Paper with Chitosan Coating
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Issue Date2021-11
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Issue Date2021-08
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Synergistic control of mechanics and microarchitecture of 3D bioactive hydrogel platform to promote the regenerative potential of engineered hepatic tissue
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Issue Date2021-03
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Programmable multilayer printing of a mechanically-tunable 3D hydrogel co-culture system for high-throughput investigation of complex cellular behavior
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Issue Date2021-02
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