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Wei-Chen Huang
Researcher at National Taiwan University of Science and Technology
Publications - 59
Citations - 883
Wei-Chen Huang is an academic researcher from National Taiwan University of Science and Technology. The author has contributed to research in topics: Medicine & Self-healing hydrogels. The author has an hindex of 14, co-authored 45 publications receiving 627 citations. Previous affiliations of Wei-Chen Huang include National Defense Medical Center & National Tsing Hua University.
Papers
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Journal ArticleDOI
Biomedical applications and colloidal properties of amphiphilically modified chitosan hybrids
Mikael Larsson,Mikael Larsson,Wei-Chen Huang,Meng Hsuan Hsiao,Yen Jen Wang,Magnus Nydén,Shih Hwa Chiou,Dean-Mo LIu +7 more
TL;DR: A survey of the field is provided, critically reviewing the colloidal properties and biomedical performance of AMC systems, such as nanoparticle drug delivery systems and macroscopic medical devices, as well as promising colloidal-structured biomaterials.
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Ultrasound-Mediated Self-Healing Hydrogels Based on Tunable Metal–Organic Bonding
TL;DR: The diverse ranges of mechanical behavior, self-healing capability, and differential susceptibility to ultrasonic disintegration suggest that Fe3+-[PEG-Dopa]4 hydrogels yield a class of application-specific stimulus-responsive polymers as smart materials for applications ranging from transient medical implants to matrices for smart drug delivery.
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Implantable Graphene-based Neural Electrode Interfaces for Electrophysiology and Neurochemistry in In Vivo Hyperacute Stroke Model
Ta Chung Liu,Min-Chieh Chuang,Chao Yi Chu,Wei-Chen Huang,Hsin Yi Lai,Chao Ting Wang,Wei Lin Chu,San-Yuan Chen,You Yin Chen +8 more
TL;DR: This newly developed implantable probe with localized rGO/Au2O3 nanocomposite electrode can serve as a rapid and reliable sensing platform for practical H2O2 detection in the brain or for other neural-chemical molecules in vivo.
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A flexible drug delivery chip for the magnetically-controlled release of anti-epileptic drugs
TL;DR: The flexible and membrane-like drug delivery chip utilizes drug-carrying magnetic nanoparticles as the building blocks that ensure a rapid and precise response to magnetic stimulus and may offer advantages over conventional drug delivery devices by improvement of dosing precision, ease of operation, wider versatility of elution pattern, and better compliance.
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Dual-Targeting Lactoferrin-Conjugated Polymerized Magnetic Polydiacetylene-Assembled Nanocarriers with Self-Responsive Fluorescence/Magnetic Resonance Imaging for In Vivo Brain Tumor Therapy.
Jen-Hung Fang,Tsung Lang Chiu,Wei-Chen Huang,Yen Ho Lai,Shang-Hsiu Hu,You Yin Chen,San-Yuan Chen +6 more
TL;DR: The results demonstrate that PDNCs will reduce the drug leakage and further control the drug release, and display self‐responsive fluorescence upon intracellular uptake for cell trafficking and imaging‐guided tumor treatment, and confirm that Lf targeting and controlled release act synergistically to significantly suppress tumors in orthotopic brain‐bearing rats.