2026 GeunHyung Kim: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	65	5728	5542	227	224	269	12637

Overview

GeunHyung Kim is affiliated with Sungkyunkwan University in South Korea and has a research focus primarily spanning engineering and medicine, with particular emphasis on biomedical engineering. Their scholarly output includes contributions to subfields such as biomaterials, surgery, and cellular and molecular neuroscience.

The scientist's work concentrates on topics that intersect advanced manufacturing and biomedical applications. These topics include:

3D Printing in Biomedical Research
Bone Tissue Engineering Materials
Additive Manufacturing and 3D Printing Technologies
Electrospun Nanofibers in Biomedical Applications
Tissue Engineering and Regenerative Medicine
Neuroscience and Neural Engineering
Innovative Microfluidic and Catalytic Techniques Innovation

They have published research in multiple venues, most notably:

Theranostics
Advanced Functional Materials
Carbohydrate Polymers
Bioactive Materials
Applied Physics Reviews

Among recent papers authored or co-authored by GeunHyung Kim are:

"Bone-derived dECM/alginate bioink for fabricating a 3D cell-laden mesh structure for bone tissue engineering" (2020), published in Carbohydrate Polymers
"Micro/nano-hierarchical scaffold fabricated using a cell electrospinning/3D printing process for co-culturing myoblasts and HUVECs to induce myoblast alignment and differentiation" (2020), published in Acta Biomaterialia
"A skeleton muscle model using GelMA-based cell-aligned bioink processed with an electric-field assisted 3D/4D bioprinting" (2020), published in Theranostics
"Bio-printing of aligned GelMa-based cell-laden structure for muscle tissue regeneration" (2021), published in Bioactive Materials
"An intestinal model with a finger-like villus structure fabricated using a bioprinting process and collagen/SIS-based cell-laden bioink" (2020), published in Theranostics

Frequent coauthors collaborating with GeunHyung Kim include:

Won-Jin Kim
Hyeongjin Lee
Hanjun Hwangbo
SooJung Chae
Dongryeol Ryu

Best Publications

Stability analysis for multi-jets electrospinning process modified with a cylindrical electrode

GeunHyung Kim;Young-Sam Cho;Wan Doo Kim

326
Citations
3D bioprinting and its in vivo applications.

Nhayoung Hong;Gi-Hoon Yang;JaeHwan Lee;GeunHyung Kim

251
Citations
Electrospun PCL nanofibers with anisotropic mechanical properties as a biomedical scaffold.

Geun Hyung Kim

215
Citations
A mini-review: Cell response to microscale, nanoscale, and hierarchical patterning of surface structure

HoJun Jeon;Carl G. Simon;GeunHyung Kim

214
Citations
Strategy to Achieve Highly Porous/Biocompatible Macroscale Cell Blocks, Using a Collagen/Genipin-bioink and an Optimal 3D Printing Process

Yong Bok Kim;Hyeongjin Lee;Geun Hyung Kim

188
Citations
Hybrid Process for Fabricating 3D Hierarchical Scaffolds Combining Rapid Prototyping and Electrospinning

GeunHyung Kim;JoonGon Son;SuA Park;WanDoo Kim

184
Citations
A PMMA composite as an optical diffuser in a liquid crystal display backlighting unit (BLU)

GeunHyung Kim

182
Citations
Three-dimensional electrospun polycaprolactone (PCL)/alginate hybrid composite scaffolds.

Min Seong Kim;GeunHyung Kim

173
Citations
Efficient myotube formation in 3D bioprinted tissue construct by biochemical and topographical cues

WonJin Kim;Hyeongjin Lee;JiUn Lee;Anthony Atala

168
Citations
Fish collagen/alginate/chitooligosaccharides integrated scaffold for skin tissue regeneration application.

Pathum Chandika;Seok-Chun Ko;Gun-Woo Oh;Seong-Yeong Heo

167
Citations
Cell-Electrospinning and Its Application for Tissue Engineering.

Jiyoung Hong;Miji Yeo;Gi Hoon Yang;GeunHyung Kim

163
Citations
3D polycaprolactone scaffolds with controlled pore structure using a rapid prototyping system

SuA Park;GeunHyung Kim;Yong Chul Jeon;YoungHo Koh

161
Citations
An Innovative Collagen-Based Cell-Printing Method for Obtaining Human Adipose Stem Cell-Laden Structures Consisting of Core–Sheath Structures for Tissue Engineering

MyungGu Yeo;Ji-Seon Lee;Wook Chun;Geun Hyung Kim

156
Citations
Three-dimensional hierarchical composite scaffolds consisting of polycaprolactone, β-tricalcium phosphate, and collagen nanofibers: fabrication, physical properties, and in vitro cell activity for bone tissue regeneration.

MyungGu Yeo;Hyeongjin Lee;GeunHyung Kim

154
Citations
A New Approach for Fabricating Collagen/ECM-Based Bioinks Using Preosteoblasts and Human Adipose Stem Cells.

Hyeong Jin Lee;Yong Bok Kim;Seung Hyun Ahn;Ji-Seon Lee

153
Citations
Apparatus for preparing electrospun nanofibers: designing an electrospinning process for nanofiber fabrication

SuA Park;Koeun Park;Hyeon Yoon;JoonGon Son

150
Citations
Coaxial structured collagen–alginate scaffolds: fabrication, physical properties, and biomedical application for skin tissue regeneration

GeunHyung Kim;Seunghyun Ahn;YunYoung Kim;Youngseok Cho

142
Citations
Highly porous 3D nanofiber scaffold using an electrospinning technique.

GeunHyung Kim;WanDoo Kim

141
Citations
Bone-derived dECM/alginate bioink for fabricating a 3D cell-laden mesh structure for bone tissue engineering

Jiun Lee;Jiyoung Hong;WonJin Kim;Geun Hyung Kim

140
Citations
4D Bioprinting: Technological Advances in Biofabrication.

Gi Hoon Yang;Miji Yeo;Young Won Koo;Geun Hyung Kim

134
Citations
Cells (MC3T3-E1)-Laden Alginate Scaffolds Fabricated by a Modified Solid-Freeform Fabrication Process Supplemented with an Aerosol Spraying

SeungHyun Ahn;HyeongJin Lee;Lawrence J Bonassar;GeunHyung Kim

121
Citations
Fabrication of micro/nanoporous collagen/dECM/silk-fibroin biocomposite scaffolds using a low temperature 3D printing process for bone tissue regeneration.

Hyeongjin Lee;Gi Hoon Yang;Minseong Kim;JaeYoon Lee

121
Citations