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研究領域
Research fileds 

近年來,新興的本質性自癒合高分子在永續循環研究領域上呈現爆炸性成長;鈣鈦礦量子點相對於其他半導體材料而言,因具有優異的光電物理特性、高量子產率、高色純度、可調控粒徑大小及發光波長可調等優點,是當前具有潛在應用價值及熱門的半導體研究主題。如何有系統性的結合自癒合高分子與鈣鈦礦半導體複合材料深受學界與業界廣泛關注。 Fang Cheng Liang 的研究小組透過結合跨領域人才與技術,深入探索自癒合高分子和鈣鈦礦的關聯性。

Intrinsic self-healing polymer are the driving-force behind the exponential growth of self-healing polymer to develop a sustainable and durable future. Simultaneously, ultrapure semi-conductor perovskite materials are approaching their maturity. Design of self-healing polymer with perovskite semiconductor composite is a topic that instigate wide attention. Fang Cheng Liang research group is an interdisciplinary research group looking to exploit advantageous dynamic properties of intrinsic self-healing polymer and perovskite.

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構想 Conception

設計出具有不同癒合官能基的智能型自癒合材料,同時結合不同色域和多樣維度的無機鈣鈦礦量子點。

Design and synthesis endeavors are directed toward the development of smart bio-based self-healing material with intrinsic self-healing functionality of various nature. Simultaneously, the development of inorganic perovskite quantum dots with various emitted color gamut and dimensionality is proposed.

科學家與試管

合成 Synthesis

藉由在原子結構、表面和配體工程的設計上,合成出高穩定型無機鈣鈦礦量子點。 針對不同癒合官能基團和聚合物骨架的選擇,通過縮合聚合化學反應合成出自癒合高分子。鈣鈦礦量子點與自癒合高分子,兩者皆會以薄膜和奈米纖維形式存在,以利後續於先進製程中的應用。

Synthesis of highly stable inorganic perovskite quantum dots is conducted through structural, surface and ligand engineering with atomic level event in-depth understanding. Self-healing polymer are synthesized via facile condensation polymerization chemical approach while considering the choice of the self-healing functional group and polymeric back bone. Both perovskite and polymer are aimed to fit thin-film and nanofibers shape for advanced applications.

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應用 Applications

開發出多功能自主性可穿戴式軟性自癒合電子元件為目標,使用精密儀器對自癒合高分子-鈣鈦礦量子點複合材料的化學性質、結構、機械和光電特性進行巨觀與微觀的研究。新興的自癒合高分子結合鈣鈦礦量子點,將可以應用於軟性電子產品與新型顯示器。

Macro and microscale investigation of the chemical, structural, mechanical and optoelectronics properties of self-healing polymer–perovskite quantum dots composite with advanced characterization tools toward the development of autonomous multifunction self-healing soft wearable electronics devices. Newly synthesized self-healing polymer are not only aimed to be incorporated in self-healing soft-electronics with highly dynamic and autonomous nature but also be combined with perovskite for novel display.

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【Part 1】

鈣鈦礦半導體合成
Perovskite semi-conductor synthesis

通過對原子與結構的深入了解,運用結構特性、表面和配體工程知識,合成出無機鈣鈦礦量子點、準二維和塊狀鈣鈦礦。 開發出能應用於寬廣色域和多功能性新型鈣鈦礦光電產品。

Synthesis of inorganic perovskite quantum dots, quasi-2D and bulk perovskite through structural, surface and ligand engineering with atomic level event in-depth understanding. Novel perovskite semi-conductors are developed for application in versatile and multifunction optoelectronics application with wide gamut color.

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