講座報告主題:創新產業中材料的生態設計策略
專家姓名:Rodrigo Martins
日期:2024-05-21 時間:10:00
地點:材料學院304報告廳
主辦單位:材料科學與工程學院
主講簡介:Rodrigo Martins, Portuguese nationality, born in Nova Lisboa, Angola. He got: in 1974 the Honours degree in Electronics Engineering by U. Luanda. In 1977 he got the MSc degree in Semiconductor Materials, by U. of Dundee, Scotland, supervised by W. Spear, the 1977 Euro physicist award; in 1982, the Ph.D. in Energy conversion and Semiconductors, by New University of Lisbon (UNL); in 1988 the Aggregation in Semiconductor Materials and Microelectronics, by UNL. Full Professor at FCT-NOVA since 2002 in Materials Engineering, speciality Materials for Energy, Microelectronics and Nanotechnologies. He is the running director of i3N; CENIMAT|i3N (https://www.cenimat.fct.unl.pt/) and CEMOP/UNINOVA, (https://cemop.uninova.pt/pt-pt), President of European Academy of Sciences - EurASc; President of the administration board of the Portuguese cluster in Advanced Materials (NANOMAT); member of the: administration board of the Portuguese cluster on Batteries (BatPower); committee of King Jaume I award for Basic Research (https://fprj.es/en/awards/); coordination board of the Sino-Portugal joint centre in Advanced Materials. Chair of the European Committee Affairs of European Materials Research Society (E-MRS).研究專長:Advanced functional materials; nanotechnologies, microelectronics, transparent electronics (pioneer) and paper electronics (inventor), with more than 950 papers published, holding an h factor of 95, with more than 35000 citations. Author in 5 books and 31 book chapters and editor in 8 books. He gave so far 157 plenary talks; 260 invited talks; 109 oral presentations and 95 posters, in conferences and workshops.
主講內容簡介:隨著全球電子制造業的智能化發展,印刷電子技術因其能夠克服傳統高成本制造方法(主要基于剛性硅基板)的限制而備受關注。在這些問題上,印刷技術可以用于在各種柔性基板上制造設備,如紙張、紡織品、可彎曲的聚合物,甚至是人類皮膚。另一方面,通過選擇低成本基板進行印刷設備的制造,印刷電子產品有很大的潛力提供可生物降解和可回收的解決方案,這是一種減少因不斷增加的一次性電子設備而產生的電子廢物(e-waste)的方法。在過去的十年中,“紙上印刷電子”技術在研究和電子工業領域迅速發展。通常,印刷過程涉及一系列任務,從選擇具有預期功能的功能材料開始,到配制墨水,再到選擇合適的基板。根據墨水的特性和印刷膜的預期功能,選擇合適的印刷技術。從實驗室規模到大規模應用的研究和工業領域中,使用了多種印刷技術,如絲網印刷、柔性版印刷、凹版印刷、凹版膠印和卷對卷印刷。可以使用一長串功能材料(從導電聚合物、離子液體和碳納米結構到金屬納米粒子和金屬氧化物納米結構,具有導電、半導體或介電特性)來配制這些墨水。開發穩定、成本效益高、無毒且環保的可打印墨水,并具有所需的可打印性,對于在基板上沉積和圖案化這些材料至關重要,以生產新一代極其輕便、經濟實惠、可定制、薄型、柔性和可回收的電子和能源設備。
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