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Dr. Seol-HaJeong | Robotic 3D Printing Award | Best Researcher Award

Dr. Seol-HaJeong, Harvard Medical School, United States

Professor Hyoun-Ee Kim is a distinguished researcher in the field of materials science and engineering, particularly renowned for his expertise in biomaterials and tissue engineering. With a prolific career spanning various prestigious institutions, including Seoul National University, he has made significant contributions to the development of advanced hydrogels and nanocomposite materials, enhancing biostability and mechanical properties for biomedical applications. His pioneering work in the synthesis and characterization of innovative biomaterials has earned him international recognition, reflected in numerous awards, patents, and high-impact publications. šŸ†šŸ”¬šŸ§¬

 

Publication ProfileĀ 

Google Scholar

Education

 

Seol-Ha Jeong’s academic journey reflects a relentless pursuit of excellence in materials science and engineering, with a focus on biomedical applications. Beginning with a Bachelor of Science degree from Seoul National University (SNU), Jeong delved into research early on. Through her Master’s and Ph.D. studies under the mentorship of Prof. Hyoun-Ee Kim, she explored the synthesis and applications of hyaluronic acid-based nanocomposite hydrogels, earning accolades for her outstanding thesis. This foundation led her to various roles as a postdoctoral researcher and research professor at SNU, before venturing to Harvard Medical School’s Brigham and Women’s Hospital. Her current position as a senior researcher at SNU’s Bio-Max Institute underscores her commitment to advancing bioengineering and materials science. šŸŽ“šŸ”¬šŸ§¬

 

Research Experiences

 

Seol-Ha Jeong’s research endeavors illuminate a profound commitment to advancing biomedical engineering across prestigious institutions worldwide. At Harvard Medical School’s Brigham and Women’s Hospital, her current role as a postdoctoral research fellow under Prof. Su Ryon Shin is marked by groundbreaking projects, including the integration of visual guidance systems and robot arms for in-situ bioprinting. She actively contributes to the preparation of R01 NIH grants and explores innovative avenues such as in-situ printed wound patches and oxygenated mesenchymal stem cell spheroids for bone regeneration. Her previous stints at Seoul National University involved pioneering work in diverse areas, from wireless ionic devices for photodynamic therapy to developing hyaluronic acid-based nanocomposite hydrogels for wound healing. Jeong’s trajectory exemplifies a fusion of scientific rigor and visionary pursuit, propelling the frontier of bioengineering. šŸ”¬āš™ļøšŸ§¬

 

Awards

 

Seol-Ha Jeong’s illustrious academic journey is adorned with an array of accolades and scholarships, underscoring her exceptional prowess in the field of materials science and engineering. Noteworthy among her accolades are the Outstanding Paper Award from the LG High Future Cosmetic Support Foundation and the prestigious Outstanding Thesis Award from Seoul National University. Her scholarly achievements extend globally, earning her recognition such as the Honorable Mention STAR Award from the Society for Biomaterials in Minneapolis. Additionally, Jeong’s dedication to excellence is further evidenced by an array of scholarships, including those from esteemed institutions like Dentium and SNU, affirming her commitment to advancing scientific frontiers. šŸŽ“šŸ†šŸ”¬

 

Research Focus

Seol-Ha Jeong’s research focus spans several critical areas in biomaterials and tissue engineering. She specializes in enhancing the stability and functionality of hydrogels, such as hyaluronic acid-based hydrogels, through innovative approaches like tannic acid treatment and in-situ precipitation processes. Furthermore, her work extends to the development of advanced wound healing technologies, including ionic patches assisted by triboelectric nanogenerators and bioactive composite hydrogel dressings. Through her contributions, she aims to address challenges in wound healing, tissue regeneration, and biomedical applications, paving the way for novel therapeutic interventions and improved patient outcomes. šŸ§¬šŸ”¬šŸ©ŗ

 

Publication Top Notes :

  1. Enhancement of bio-stability and mechanical properties of hyaluronic acid hydrogels by tannic acid treatmentšŸŒ± Cited by: 120, Year: 2018
  2. Accelerated wound healing with an ionic patch assisted by a triboelectric nanogenerator āš” Cited by: 110, Year: 2021
  3. Strong and biocompatible poly (lactic acid) membrane enhanced by Ti3C2Tz (MXene) nanosheets for Guided bone regenerationšŸ¦“ Cited by: 98, Year: 2018
  4. Strong and biostable hyaluronic acidā€“calcium phosphate nanocomposite hydrogel via in situ precipitation process šŸ’§ Cited by: 68, Year: 2016
  5. Polyurethane-silica hybrid foams from a one-step foaming reaction, coupled with a sol-gel process, for enhanced wound healing šŸ©¹ Cited by: 51, Year: 2017
  6. Polydeoxyribonucleotide-delivering therapeutic hydrogel for diabetic wound healing
  7. Calcium phosphateā€“collagen scaffold with aligned pore channels for enhanced osteochondral regeneration
  8. One-pot synthesis of silane-modified hyaluronic acid hydrogels for effective antibacterial drug delivery via solā€“gel stabilization
  9. Porous calcium phosphateā€“collagen composite microspheres for effective growth factor delivery and bone tissue regeneration
  10. Hyaluronic acid-based hybrid hydrogel microspheres with enhanced structural stability and high injectability

 

Seol-HaJeong | Robotic 3D Printing Award | Best Researcher Award

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