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                                                                  申博太阳城

                                                                  學術海報

                                                                  Electrochemical Engineering of Graphene Oxide for Wearable Smart Devices

                                                                  發佈者:卜士湞發佈時間:2019-05-30瀏覽次數:10

                                                                  報告題目:Electrochemical Engineering of Graphene Oxide for Wearable Smart Devices

                                                                  報告人 Yulin Zhong(鍾育霖)GriffithUniversity

                                                                  報告時間201961日(週六)930

                                                                  報告地點:申博太阳城211

                                                                  主辦單位:申博太阳城、科研院

                                                                    

                                                                  個人簡介Dr Yulin Zhong completed his PhD in Chemistry at the National University of Singapore (NUS) and did his post-doctoral training at Princeton University (2009) and Massachusetts Institute of Technology (2011). After spending three years in the USA, he worked as a Research Scientist at the Institute of Bioengineering and Nanotechnology, A*STAR Singapore, (2012) and thereafter, as an ARC DECRA Fellow at Monash University (2013). He is currently a Senior Lecturer at the School of Environment and Science, Griffith University (Gold Coast campus) and a full research member of the Centre for Clean Environment and Energy (CCEE).

                                                                    

                                                                  報告簡介雖然運用電化學方法開發GO已經取得了重大進展 ,但是現有方法在其成本和可擴展性方面仍具有較大的侷限性 。爲了克服這些挑戰  ,鍾育霖老師採用具有寬泛電化學電位窗口的高強度摻硼金剛石(BDD)和商業熔融沉積成型工藝(FDM)的3D打印相結合,製造可擴展的填充牀電化學反應器(PBER)來生產GO 。對反應器沿垂直和橫向尺寸的可擴展性進行了系統地闡述 ,以促進其最終的工業應用。該反應器具有成本效益  ,能夠以數克的規模生產電化學衍生的氧化石墨烯(EGO) 。所製備的EGO可分散在水和其它極性有機溶劑(例如乙醇和DMF)中,並且可以向下剝離至以單層爲主的氧化石墨烯。隨後,鍾老師還將展示用於3D打印的導電PDMS/石墨烯油墨的高效技術 ,該技術通過使用乳液方法形成均勻分散的PDMS納米珠 ,EGOPDMS前體粘合劑 。該納米複合材料油墨具有高儲存模量和屈服應力 ,可用於直寫成型技術(DIW)的3D打印  。由於PDMSEGO片的獨特複合結構  ,3D打印的EGO / PDMS納米複合材料具有高度、線性且可再現的靈敏度 ,適合作爲可附着在皮膚上的可穿戴健康監測裝置。