2019-01-012024-05-15https://scholars.lib.ntu.edu.tw/handle/123456789/666378摘要：原子級材料成長是一個高度競爭且高度專業之領域。由科技部「優先推動計畫」於2012年五月成立國家級「尖端晶體材料聯合實驗室」[Taiwan Consortium of Emergent Crystalline Materials (TCECM)]，培植國內尖端材料成長技術及人才，是科技部近年來最成功的國家型旗艦計劃之一。材料系陳俊維團隊及凝態中心周方正團隊，是此旗艦計畫之主要核心成員(周方正博士為主任且陳俊維教授擔任執行長)，在台大已建立相當優異之原子級材料成長基礎設施及專業技術。近五年來以台大所開發成長之特殊單晶及新穎低維度材料與各國頂尖團隊的合作，也共同發表許多高影響係數甚至高度被引用的論文(包括三篇Science論文)，足證其國際競爭力。在此厚實基礎之上，藉由本次教育部深耕計畫之支持，整合高端原子級材料之分析技術及應用，引領台灣邁向國際。<br> Abstract: In Thrust I, we would like to establish a platform for new materials growth by atomic desgin. Most of the new materials we would like to grow and synthesize in this project consist of (1) 2D layered single crystals, (2) 2D atomic layered materials and (3) novel atomic architectures as shown in Fig.2. All these materials exhibit unique physics and functionality due to their novel 2D atomic-scale structures or electronic behaviors. These new 2D materials exhibit many specific 2D physics and have attracted great attention in condensed matter physics research recently, such as the emergence of topological order, charge density waves (CDWs), quantum phase transitions. In addition, novel atomic architectures consisting of 2D van der Walls heterostrcutures, heterointerfacial systems, and 2D metal-organic frameworks (2D MOF) exhibit unique properties due to atomic engineering or molecular designs and functionalities. All the novel physics in the emergent materials developed in Trust I can be explored by our team in atomic characterizations of Thrust II, and the corresponding unique functionalities of the 2D materials and architectures will be intensively investigated by our team in Thrust III.原子層材料單晶成長atomic layer materialssingle crystal growth