作者：石可信材料科技(蘇州)有限公司 湯寶林

　　主題詞：石墨烯；導電印刷材料；3D微電極電路；容抗方阻；Graphene；TTR；RFID；QLED；EB；

　　Key words：graphene；conductive printing materials；3D microelectrode circuit；capacitance resistance；TTR；RFID；QLED；EB；

　　摘要：石墨烯熱轉印材料(GTTR：Graphene Thermal Transfer Ribbon)及其應用之一石墨烯RFID天線首次在中國蘇州面世。GTTR有類比燙印箔、“碳帶”更多的模塊結構, 可同時搭載其他納米級主副功能層。轉印物卻是最多量的取向石墨烯微片、最少量的高熱敏性半導體連結料組成，用于微電極、矩陣電路R2R-3D熱轉印，同步UV或EB固化。石墨烯微片褶皺無序，唯其墨層涂布工藝的多重“取向”、熱轉印的“溫度”“壓強”增加了其緊密的連續性面接觸，才是對石墨烯導電性能有最佳的利用。轉印墨層具有導體、半導體和電容三并聯的阻容導電性能。容抗方阻的同時降低對RFID射頻天線性能更有利。導電布線革命，幾多千億藍海市場。初步工業化實施簡報之一①-⑥(RFID天線篇)。

　　Subject：Briefing on implementation of Graphene TTR printing material project (1)

　　Abstract: ：GTTR(Graphene Thermal Transfer Ribbon)and one of its application Graphene RFID antenna was first launched in Suzhou, China. GTTR has more module structure of analog TTR or hot stamping foil. It can carry other nano-level of main and sub-functional layers at the same time. The transfer ink is composed of maximum amount of oriented graphene microchip and a minimum amount of highly heat-sensitive semiconductor binders. It could be used for microelectrode, matrix circuit R2R-3D thermal transfer, sync UV or EB curing. The graphene microchip wrinkles are disordered, but multiple "orientations" of ink coating process, the "temperature" and "pressure" of thermal transfer increase the close continuous area contact, so that we can make best use of its conductivity. The transfer ink layer has resistance and capacitance conductivity in three parallel with the conductor, the semiconductor and the capacitance. At the same time the Sheet capacitance resistance decreased more favorable to RFID RF antenna performance. The revolution of conductive wiring leads to hundreds of billions blue ocean market. One of the brief reports on preliminary industrialization(A part of RFID antenna)

　　石墨烯熱轉印材料(GTTR：Graphene Thermal Transfer Ribbon)及其導電布線革命小應用石墨烯RFID天線(GRA: Graphene RFID Antenna)首次在中國蘇州面世。初步工業化實施簡報之一①-⑥(RFID天線篇)。

　　表一(圖-1-2-3)：GTTR應用及其小化工