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本實驗室研究發展重心在不同奈米結構與材料的特性探討,進而將其應用於汙染物降解、綠色能源、生物與藥物感測上。此外,對於奈米結構的成長機制、結構控制、發光機制、生物與藥物感測皆有深入進行研究,以期對未來電子、光學、生物醫學檢測、能源與永續發展之應用能有助益。
本實驗室研究發展重心在不同奈米結構與材料的特性探討,進而將其應用於汙染物降解、綠色能源、生物與藥物感測上。此外,對於奈米結構的成長機制、結構控制、發光機制、生物與藥物感測皆有深入進行研究,以期對未來電子、光學、生物醫學檢測、能源與永續發展之應用能有助益。
The research and development of this laboratory focus on the characteristics of different nanostructures and materials for applying them in pollutant degradation, green energy, biological and drug detection. In addition, in-depth researches are conducted on the growth mechanism, structure control, light-emitting mechanism, biological and drug detection of nanostructures for beneficial to the future applications of electronics, optics, biomedical detections, energy, and sustainable development.
The research and development of this laboratory focus on the characteristics of different nanostructures and materials for applying them in pollutant degradation, green energy, biological and drug detection. In addition, in-depth researches are conducted on the growth mechanism, structure control, light-emitting mechanism, biological and drug detection of nanostructures for beneficial to the future applications of electronics, optics, biomedical detections, energy, and sustainable development.
※研究方向/Researches
※研究方向/Researches
1.新穎半導體奈米結構的製備與特性/Preparation and Characterization of Novel Semiconductor Nanostructures
1.新穎半導體奈米結構的製備與特性/Preparation and Characterization of Novel Semiconductor Nanostructures
近年來由於金屬氧化物奈米結構具備有特殊之光學、電學、磁學與化學特性,導致其廣泛被應用於各方面。如何製備具備有高獨特性質奈米結構且低成本之成長方式,受到學者們高度的重視,本研究團隊分別有利用簡易化學法與物理法分別製備不同類型的新穎的半導體奈米結構,並深入探討其在不同領域的應用。
近年來由於金屬氧化物奈米結構具備有特殊之光學、電學、磁學與化學特性,導致其廣泛被應用於各方面。如何製備具備有高獨特性質奈米結構且低成本之成長方式,受到學者們高度的重視,本研究團隊分別有利用簡易化學法與物理法分別製備不同類型的新穎的半導體奈米結構,並深入探討其在不同領域的應用。
Recently, metal oxide nanostructures have been widely used in various fields due to their unique optical, electrical, magnetic, and chemical properties. The fabrication of nanostructures with unique properties and low-cost growth methods has highly regarded by scholars. The research team used simple chemical and physical procedures to prepare different types of novel semiconductor nanostructures for applied in various fields.
Recently, metal oxide nanostructures have been widely used in various fields due to their unique optical, electrical, magnetic, and chemical properties. The fabrication of nanostructures with unique properties and low-cost growth methods has highly regarded by scholars. The research team used simple chemical and physical procedures to prepare different types of novel semiconductor nanostructures for applied in various fields.
2.新穎金屬奈米結構於生物與藥物之檢測/Noble Metal Nanostructures in Biological and Drug Detection
2.新穎金屬奈米結構於生物與藥物之檢測/Noble Metal Nanostructures in Biological and Drug Detection
金屬奈米結構具備有製造生物檢測器與生物晶片的潛力,因此如何在基材上製作出奈米結構,一直是研究的重點。本研究團隊分別有利用自組裝法、無電金屬沉積法或離子濺鍍法於基材或特殊結構上沉積金屬奈米結構並應用於表面增強拉曼散射於生物或醫療藥物之檢測。
金屬奈米結構具備有製造生物檢測器與生物晶片的潛力,因此如何在基材上製作出奈米結構,一直是研究的重點。本研究團隊分別有利用自組裝法、無電金屬沉積法或離子濺鍍法於基材或特殊結構上沉積金屬奈米結構並應用於表面增強拉曼散射於生物或醫療藥物之檢測。
Metal nanostructures have the potential to manufacture biosensors and biochips. The fabricated nanostructures on substrates have been the focus of research. The research team used the self-assembly method, electroless metal deposition method, or ion-sputtering method to deposit metal nanostructures on substrates or unique structures and applied them to surface-enhanced Raman scattering for the detection of biological or medical drugs.
Metal nanostructures have the potential to manufacture biosensors and biochips. The fabricated nanostructures on substrates have been the focus of research. The research team used the self-assembly method, electroless metal deposition method, or ion-sputtering method to deposit metal nanostructures on substrates or unique structures and applied them to surface-enhanced Raman scattering for the detection of biological or medical drugs.
3.新穎奈米異質結構的製備與特性/Preparation and Characterization of Novel Nano-Heterostructures
3.新穎奈米異質結構的製備與特性/Preparation and Characterization of Novel Nano-Heterostructures
近年來不同奈米異質結構的製備與研究越來越受到眾多學者所重視,藉由與不同材料建構下可以進一步增進原始材料特性,例如比表面積、光吸收能力與載流子分離,因此本研究團隊也有進行深入的研究與探討。
近年來不同奈米異質結構的製備與研究越來越受到眾多學者所重視,藉由與不同材料建構下可以進一步增進原始材料特性,例如比表面積、光吸收能力與載流子分離,因此本研究團隊也有進行深入的研究與探討。
Recently, the preparation and research of different nano-heterostructures have been much attention from scholars. The construction of different materials can further improve the characteristics of the original materials, such as specific surface area, the light-harvesting ability, and the charge carrier separation. Therefore, the research team has also conducted in-depth research and discussion.
Recently, the preparation and research of different nano-heterostructures have been much attention from scholars. The construction of different materials can further improve the characteristics of the original materials, such as specific surface area, the light-harvesting ability, and the charge carrier separation. Therefore, the research team has also conducted in-depth research and discussion.
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