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Bio-Interfaced Materials & Devices (Bio-MaD) Team융합 bio-interface 제어 기술을 통한 신개념의
인체 삽입형 바이오 의료기기 개발 및 상용화 -
진단 및 치료효과 극대화를 위한
융합 Bio-interface control technology인체삽입형 생체소재 및 소자 개발과 중개연구를 통한 상용화
PUBLICATIONS
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Nanoshield-Assisted Viral Gene Therapy with Induction of Non-Apoptotic Cell Death and Durable Antitumor Immunity
Soo-Hwan Lee, Yunkyeong Cho, Seunghwan Bang, Daeun Sung, Jahyun Koo, Seoyoung Kim, Youngil Koh, Hojun Kim, Hyojin Lee*
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Topographical Patterning of Cell-Repellent Interfaces for Immune-Stealth Implantable Electronics via Multiphoton Ablation Lithography
Advanced Science 2025, e06482Hyunseon Seo, Gwan-Jin Ko, Sangmin Song, Joong Hoon Lee, Youngmin Seo,Sungkeun Han, Chan-Hwi Eom, Hyewon Kim, Seongsoo Kim, Kang-Sik Lee,Yu-Chan Kim, Hojun Kim, Si-Eun Moon, Kyungwoo Lee, Seung Hwan Ko,*Suk-Won Hwang,* and Hojeong Jeon*
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Lysosomal targeting of liposomes with acidic pH and Cathepsin B induces protein aggregate clearance
Cell Commun Signal, 23, 296 (2025)Minsol Jeon, Da-Eun Kim, Seoyoung Kim, Seongchan Kim, Hyojin Lee*,
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Metal-based regenerative strategies for peripheral nerve injuries: From biodegradable ion source to stable conductive implants
Biomaterials Research (2025)Hyewon Kim†, Khandoker Asiqur Rahaman†, Jieun Kwon, Seohyeon Cho, Seok Chung*, Hyung-Seop Han*, Yu-Chan Kim*
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Nanoshield-Assisted Viral Gene Therapy with Induction of Non-Apoptotic Cell Death and Durable Antitumor Immunity
Soo-Hwan Lee, Yunkyeong Cho, Seunghwan Bang, Daeun Sung, Jahyun Koo, Seoyoung Kim, Youngil Koh, Hojun Kim, Hyojin Lee*
more Topographical Patterning of Cell-Repellent Interfaces for Immune-Stealth Implantable Electronics via Multiphoton Ablation LithographyAdvanced Science 2025, e06482Hyunseon Seo, Gwan-Jin Ko, Sangmin Song, Joong Hoon Lee, Youngmin Seo,Sungkeun Han, Chan-Hwi Eom, Hyewon Kim, Seongsoo Kim, Kang-Sik Lee,Yu-Chan Kim, Hojun Kim, Si-Eun Moon, Kyungwoo Lee, Seung Hwan Ko,*Suk-Won Hwang,* and Hojeong Jeon*
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Topographical Patterning of Cell-Repellent Interfaces for Immune-Stealth Implantable Electronics via Multiphoton Ablation Lithography
Advanced Science 2025, e06482Hyunseon Seo, Gwan-Jin Ko, Sangmin Song, Joong Hoon Lee, Youngmin Seo,Sungkeun Han, Chan-Hwi Eom, Hyewon Kim, Seongsoo Kim, Kang-Sik Lee,Yu-Chan Kim, Hojun Kim, Si-Eun Moon, Kyungwoo Lee, Seung Hwan Ko,*Suk-Won Hwang,* and Hojeong Jeon*
more Lysosomal targeting of liposomes with acidic pH and Cathepsin B induces protein aggregate clearanceCell Commun Signal, 23, 296 (2025)Minsol Jeon, Da-Eun Kim, Seoyoung Kim, Seongchan Kim, Hyojin Lee*,
more -
Lysosomal targeting of liposomes with acidic pH and Cathepsin B induces protein aggregate clearance
Cell Commun Signal, 23, 296 (2025)Minsol Jeon, Da-Eun Kim, Seoyoung Kim, Seongchan Kim, Hyojin Lee*,
more Metal-based regenerative strategies for peripheral nerve injuries: From biodegradable ion source to stable conductive implantsBiomaterials Research (2025)Hyewon Kim†, Khandoker Asiqur Rahaman†, Jieun Kwon, Seohyeon Cho, Seok Chung*, Hyung-Seop Han*, Yu-Chan Kim*
more -
Metal-based regenerative strategies for peripheral nerve injuries: From biodegradable ion source to stable conductive implants
Biomaterials Research (2025)Hyewon Kim†, Khandoker Asiqur Rahaman†, Jieun Kwon, Seohyeon Cho, Seok Chung*, Hyung-Seop Han*, Yu-Chan Kim*
more
RESEARCH
Our research team focuses on developing fundamental technologies to control bio-interfaces formed by implantable biomaterials and devices within the human body. By securing these core technologies, we aim to enhance the safety and functionality of biomaterials and biomedical devices. Our ultimate goal is to establish an integrated Bio-Interface Control Technology that maximizes diagnostic and therapeutic efficacy, leading to the development and commercialization of advanced implantable biomaterials and systems through translational research.
Our research team focuses on developing fundamental technologies to control bio-interfaces formed by implantable biomaterials and devices within the human body. By securing these core technologies, we aim to enhance the safety and functionality of biomaterials and biomedical devices. Our ultimate goal is to establish an integrated Bio-Interface Control Technology that maximizes diagnostic and therapeutic efficacy, leading to the development and commercialization of advanced implantable biomaterials and systems through translational research.
Our research team focuses on developing fundamental technologies to control bio-interfaces formed by implantable biomaterials and devices within the human body. By securing these core technologies, we aim to enhance the safety and functionality of biomaterials and biomedical devices. Our ultimate goal is to establish an integrated Bio-Interface Control Technology that maximizes diagnostic and therapeutic efficacy, leading to the development and commercialization of advanced implantable biomaterials and systems through translational research.
On-going Projects
- CELEGO 세포블럭화 플랫폼 기술 개발
- 저출생 극복을 위한 전주기 가임력 보존/향상 및 안전출산 기술
- 폐 조직 재생용 진단치료 피드백 패치 소재 기술 개발
- 경-연조직 인터페이스 조성·구조·환경 연속/입체 구배 정밀 (≤20μm) 모사 결손부위 맞춤형 경사기능구현 공정 및 소재기술 개발
- 체내 주사주입형 생분해성 대면적 전자소재 신뢰성 확보를 위한 방수 및 접착 소재 개발
- 고집적 생분해 반도체칩 기반 일렉트로-테라노시스 융합 첨단재생치료용 3D의료소자 개발
- 혈관질환 치료용 체내 삽입형 생체분해성 금속/하이브리드 소재 개발
On-going Projects
- CELEGO 세포블럭화 플랫폼 기술 개발
- 저출생 극복을 위한 전주기 가임력 보존/향상 및 안전출산 기술
- 폐 조직 재생용 진단치료 피드백 패치 소재 기술 개발
- 경-연조직 인터페이스 조성·구조·환경 연속/입체 구배 정밀 (≤20μm) 모사 결손부위 맞춤형 경사기능구현 공정 및 소재기술 개발
- 체내 주사주입형 생분해성 대면적 전자소재 신뢰성 확보를 위한 방수 및 접착 소재 개발
- 고집적 생분해 반도체칩 기반 일렉트로-테라노시스 융합 첨단재생치료용 3D의료소자 개발
- 혈관질환 치료용 체내 삽입형 생체분해성 금속/하이브리드 소재 개발
On-going Projects
- CELEGO 세포블럭화 플랫폼 기술 개발
- 저출생 극복을 위한 전주기 가임력 보존/향상 및 안전출산 기술
- 폐 조직 재생용 진단치료 피드백 패치 소재 기술 개발
- 경-연조직 인터페이스 조성·구조·환경 연속/입체 구배 정밀 (≤20μm) 모사 결손부위 맞춤형 경사기능구현 공정 및 소재기술 개발
- 체내 주사주입형 생분해성 대면적 전자소재 신뢰성 확보를 위한 방수 및 접착 소재 개발
- 고집적 생분해 반도체칩 기반 일렉트로-테라노시스 융합 첨단재생치료용 3D의료소자 개발
- 혈관질환 치료용 체내 삽입형 생체분해성 금속/하이브리드 소재 개발
Korea Institute of Science and Technology (KIST) L1457 Hwarangno 14-gil 5 Seongbuk-gu Seoul, 136-791 Republic of Korea
TEL+82-2-958-5375FAX+82-2-958-5449
