奈 米 粉 體 材 料 實 驗 室
Welcome to the Nanoparticulate Materials Laboratory
實驗室的核心研究主題:
功能性奈米低維度材料的化學合成、表面修飾與改質、微結構調控、膠體的分散、奈米結構對光電化學潔淨能源、能源儲存、微量氣體感測、有機染料選擇吸附與移除等性質之影響研究。
The core research focus of the laboratory is as follows:
Research on the chemical synthesis, surface decoration/modification of functional nanoscale low-dimensional materials, as well as the microstructure control, colloid dispersion, and the correlation of nanoscale-structural features to properties including photoelectrochemical clean energy, energy storage, trace gas sensing, and the adsorption and removal of organic dyes in wastewater treatment.
實驗室的研究設備:
製程設備: 水熱及溶劑熱爐、靜電紡絲機、微波合成反應爐、氣氛高溫爐、旋轉鍍膜機、浸漬塗佈 機、三滾筒混合機、高週波均質機、恆溫恆濕槽、手套箱、烘箱等。
分析儀器: 紫外光-可見光光譜儀、光電化學分析系統、螢光分析光譜儀、電化學工作站、微量氣體感測儀、比表面積孔隙分析儀等。
The laboratory's research equipment includes:
Processing equipment: Hydrothermal and solvent thermal furnaces, electrospinning machine, microwave synthesis reactor, high-temperature furnace with controlled atmosphere, spin coater, dip coater, three-roll mill, high-frequency homogenizer, constant temperature and humidity chamber, glovebox, ovens, and more.
Analytical instruments: UV-visible spectrophotometer, photoelectrochemical analysis system, fluorescence spectroscopy analyzer, electrochemical workstation, trace gas sensor, specific surface area and porosity analyzer, and others.
研究室成員能獲得的專業成長包括:
解決專業領域問題的能力: 無機與有機半導體異質接合材料的化學合成、微結構調整、表面修飾、改變材料組成與奈米結構對光電化學/氣體感測性質的關連分析等。
研究分析與表達訓練的能力:研究結果的邏輯分析能力、書面及口語報告表達能力、研究進度規畫等。
Professional growth opportunities for laboratory members include:
Problem-solving in specialized areas: Chemical synthesis of inorganic and organic semiconductor heterojunction materials, microstructure adjustment, surface modification, and analysis of the correlation between changes in material composition and nanoscale structures with photoelectrochemical/gas sensing properties.
Research analysis and communication skills: Training in logical analysis of research results, written and oral presentation skills, research progress planning, and more.
研究室成員近年參與的會議論文發表 (Recent Conference Publications of Lab Members):
-
2024.11: 中國材料科學學會年會 (2024 Annual Meeting of the Materials Research Society-Taiwan)
陳柏維(Poster)
蔡承紘 (Poster)
劉斌(Poster)
許芷瑜(Poster)
NaBH4濃度對水熱合成ZnO@ZnS奈米線缺陷結構的影響
NaBH4調整TiO2奈米陣列缺陷結構對染料降解的影響
奈米銅濃度對二氧化鈦膜的光電化學性質影響
製備反鈣鈦礦結構Ni3ZnN複合金屬有機框架CuHHTP於電催化之研究
-
2024.11 : ICGET-TW
Cheng-Hong Tsai (Oral)
Defective TiO2 Nanorod Film by Chemical Reduction for Enhanced Dye Degradation
-
2024.7 : IPS-24 / ICARP2024
Yu-Zhe Wu (Poster)
ZnO@ZnS Core-shell Nanorod Arrays for Enhanced Photocurrent Density and Supercapacitor Properties
-
2024.5 : 陶瓷年會 (ACTSEA 2024)
Jia-En Li (Oral)
Da-Wei Lin (Oral)
Preparation of Antiperovskite Zn-Substituted Co3CuN for Electrochemical Properties
Preparation of Antiperovskite Ni3-xCuxFeN on Nickel Foam
for Electrocatalytic Oxygen Evolution Reaction
Yu-Zhe Wu (Oral)
Effect of Sulfidation Temperature on Preparation of ZnO@ZnS Core-Shell Nanorod Arrays for Enhanced Photocurrent Density
Bo-Lin Chen (Oral)
Preparation of TiO2 Nanorod Arrays for Enhanced Photocurrent Activity
-
2023.10 : ICGET-TW
Jia-En Li (Oral)
Da-Wei Lin (Oral)
Yu-Zhe Wu (Poster)
Bo-Lin Chen (Poster)
Preparation of Antiperovskite Co3CuN and Metal-Organic Framework Composites for Photoelectrochemical Properties
Preparation of Anti-perovskite Ni3FeN Particles and their Photoelectrochemical Properties
Effect of Sulfidation on Arrayed ZnO@ZnS Nanorods for Enhanced Photoelectrochemical Properties
Synthesis and Photoelectrochemical Performance of Arrayed TiO2 Nanorods Grown by a Microwave Method
-
2023.5: 陶瓷年會 (2023 Annual Meeting of Taiwan Ceramic Society)
吳欣芸 (Oral)
施俐安 (Oral)
江梓豪 (Oral)
洪翊茹 (Oral)
製備反鈣鈦礦結構Ni3ZnN與銅基金屬有機骨架奈米複材及其光電化學性質研究
硫化銦@氧化銦核殼複合導電性銅基金屬有機框架奈米粉體之光電化學性質分析
矽奈米線陣列-銅金屬有機骨架複合結構之光電化學性質研究
ZnS/ZIF8複合奈米線於高濕度環境對H2S氣體之感測性質研究
-
2022.11: 中國材料科學學會年會 (2022 Annual Meeting of the Materials Research Society-Taiwan)
林靖原、吳欣芸(Poster)
結合水熱及熱氨法製備鈣鈦礦結構鑭鎢氮氧化物及其光電化學性質研究
孫兆緯、施俐安(Poster)
以靜電紡絲搭配水熱法製備氧化銦/硫化銦異質核殼結構及其光電化學性質分析
陳家浩、江梓豪(Poster)
以靜電紡絲製備Fe2O3-FeS2複合結構及其光電化學性質研究
鐘柏鈞、洪翊茹(Poster)
ZnO@ZnS核殼複合奈米線及其H2S氣體感測與電化學性質研究