| Technical Name | 近紅外光驅動光熱聚吡咯在轉譯生物醫學與產業化應用 | ||
|---|---|---|---|
| Project Operator | Taipei Medical University | ||
| Project Host | 莊爾元 | ||
| Summary | We developed Polypyrrole (PPy) based NIR-photothermal related platform technologies. This photothermal driving hyperthermia carrier systems are biocompatible are able to possess versatile functions in anticancer, antibacterial, thrombolysis, wound-healingsuppression of inflammation related bioengineering potential applications. These innovative works shed light on the efficacy of combining photothermal-performance with translational manner in biomedical, clinicalindustrial designs. |
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| Scientific Breakthrough | We developed Polypyrrole (PPy) based NIR-photothermal related platform technologies. This photothermal driving hyperthermia carrier systems are biocompatible are able to possess versatile functions in anticancer, antibacterial, thrombolysis, wound-healingsuppression of inflammation related bioengineering potential applications. These innovative works shed light on the efficacy of combining photothermal-performance with translational manner in biomedical, clinicalindustrial designs. |
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| Industrial Applicability | We developed Polypyrrole (PPy) based NIR-photothermal related platform technologies. This photothermal driving hyperthermia carrier systems are biocompatible are able to possess versatile functions in anticancer, antibacterial, thrombolysis, wound-healingsuppression of inflammation related bioengineering potential applications. These innovative works shed light on the efficacy of combining photothermal-performance with translational manner in biomedical, clinicalindustrial designs. |
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| Matching Needs | 天使投資人、策略合作夥伴 |
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| Keyword | Polypyrrole Photothermal effect Anticancer Antibacterial Thrombolytic Wound healing Anti-inflammatory Conductive polymer Nanotechnologies Biomaterials | ||
- eychuang@tmu.edu.tw
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