전기 전도성을 지닌 생체 모방 알지네이트-알부민
기반 즉시 겔 잉크의 3D 프린팅 및 지지재 없이
중공 다공성 관형 구조물의 직접 4축 프린팅.
Advanced Functional Materials, 31(2021), 1-13, 2021.08.06., 0.1002/adfm.202104441.

조직 수복을 위한 3D 프린팅 스코비 바이오잉크
3D 프린팅 산업, 2025년 2월 11일.

콤부차 배양 나노셀룰로오스 바이오잉크의 동시
생체혼합 및 생체기록을 통한 불규칙 및 다층 조직
결손 재생.
Int J Biol Macromol, 2024년 12월.

젤라틴-알지네이트 하이드로겔을 이용한 근거리
전기방사 보조 3차원 및 4축 바이오프린팅,
노인섭, Carbohydrate Polymers J,
Vol 348(Part A), 2025.

고급 휴대용 바이오펜을 이용한 현장 알지네이트
키토산-카올린 바이오잉크를 통한 복잡한 조직
스캐폴드의 3D 바이오프린팅,
Carbohydrate Polymers J, 2023.

신규 이중 나사 압출 시스템을 이용한 조직 재생용
미세/나노 복합 하이드로겔의 3D 바이오 프린팅
과정에서의 바이오잉크 균질성 제어,
Chem Eng J, 2021.

치유를 위한 콤부차:
서울과기대 바이오잉크, 응급실 생체 프린팅 실현에
한 걸음 다가서다.
ER-3DPrint.com, SP3D, 2025년 2월 13일.

조직 공학 응용을 위한 가교 메커니즘 제어에 의한
자립형 다층 3D 바이오 프린팅 알지네이트-
히알루로네이트 구조체 제조,
G Janarthanan, Insup Noh, 2022 Biofabrication,14 035013, 2022.05.31,
1758-5090.

3D 바이오프린팅 조직 공학 및 재생 의학을 위한 미생물
합성 생체 고분자의 면역 반응 제어.
Bioactive Materials 58, 590-611, 2026/4/1

압축 스트레스에 대한 반응을 기반으로 한 알지네이트
하이드로겔의 표면 형태와 질감 프로파일을 고려한 순환 조직 공학 바이오리액터의 설계와 유한요소 해석.
International Journal of Biological Macromolecules, 149768, 2025/12/20

다른 출판물

1. Hand-held bioprinting with kombucha-based bioink, The business of bioprinting , Feb 04, 2025, https://businessofbioprinting.com/2025/02/04/handheld-bioprinting-with-kombucha-based-bioink/

2. 3D printed Scoby bioink for direct tissue repair,
3D printing industry , Feb 11, 2025 , https://www.3printr.com/3d-bioprinting-with-kombucha-nanocellulose-new-approaches-for-tissue-regeneration-2477073/

3. SEOULTECH researchers develop bioink for tissue repair, Feb 03, 2025, World Bio Market Insight, https://worldbiomarketinsights.com/seoultech-researchers-develop-bioink-for-tissue-repair/

4. Simultaneous processing of both handheld biomixing and biowriting of kombucha-cultured pre-crosslinked nanocellulose bioink for regeneration of irregular and multi-layered tissue defects. I n t J Biol Macromol , 2024 Dec;282 (Pt 3):136966. doi: 10.1016/j.ijbiomac.2024.136966. Simultaneous processing of both handheld biomixing and biowriting of kombucha cultured pre-crosslinked nanocellulose bioink for regeneration of irregular and multi-layered tissue defects - ScienceDirect

5. Gelatin-alginate hydrogel for near-field electrospinning-assisted 3D and 4-axis bioprinting, MR Khatun, A Bhattacharyya, M Gunbayar, YO Jo, Insup Noh, Carbohydrate Polymers , Vol 348 (Part A), 2025, 122853. Gelatin-alginate hydrogel for near-field electrospinning-assisted 3D and 4-axis bioprinting - ScienceDirect

6. 3D bioprinting of complex tissue scaffolds with in situ homogeneously mixed alginate-chitosan-kaolin bioink using advanced portable biopen,
A Bhattacharyya, HW Ham, Insup Noh, Carbohydrate Polymers , Vol 317, 2023, 121046, 3D bioprinting of complex tissue scaffolds with in situ homogeneously mixed alginate-chitosan-kaolin bioink using advanced portable biopen-PubMed

7. Bioink homogeneity control during 3D bioprinting of multicomponent micro/nanocomposite hydrogel for even tissue regeneration using novel twin screw extrusion system, Chem Eng J , Vol 415, 2021, 128971,
Bioink homogeneity control during 3D bioprinting of multicomponent micro/nanocomposite hydrogel for even tissue regeneration using novel twin screw extrusion system - ScienceDirect

8. 3D printing of bioinspired alginate-albumin-based instant gel ink with electro-conductivity and its expansion to direct four-axis printing of hollow porous tubular constructs without supporting materials, G Janarthanan, S Lee, Insup Noh, Advanced Functional Materials, 31(2021), 1-13, 2021.08.06., 0.1002/adfm.202104441 , 3D Printing of Bioinspired Alginate‐Albumin Based Instant Gel Ink with Electroconductivity and Its Expansion to Direct Four‐Axis Printing of Hollow Porous Tubular Constructs without Supporting Materials - Janarthanan - 2021 - Advanced Functional Materials - Wiley Online Library

9. Manufacturing of self-standing multi-layered 3D-bioprinted alginate-hyaluronate constructs by controlling the cross-linking mechanisms for tissue engineering applications, G Janarthanan, Insup Noh 2022 Biofabrication 14 035013, 2022.05.31, 1758-5090 , Manufacturing of self-standing multi-layered 3D-bioprinted alginate-hyaluronate constructs by controlling the cross-linking mechanisms for tissue engineering applications - IOPscience.

10. Seoul National University of Science and Technology Researchers Develop Bioink for Personalized Tissue Repair Using Kombucha SCOBY Nanocellulose, Yahoo! Finance ,
PR Newswire, February 4, 2025, https://finance.yahoo.com/news/seoul-national-university-science-technology-134300878.html

11. Kombucha for Healing: SeoulTech's Bioink Brings Bioprinting One Step Closer to the
ER-3DPrint.com , SP3D , February 13, 2025, https://sp3d.in/kombucha-for-healing-seoultechs-bioink-brings-bioprinting-one-step-closer-to-the-er-3dprint-com /