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    題名: 添加石墨烯助導劑對活性碳超高電容電極性質的影響;Effects of Graphene Additives on Supercapacitive Properties of Activated Carbon Electrodes
    作者: 潘柏瑞;Pan, Bo-Rui
    貢獻者: 材料科學與工程研究所
    關鍵詞: 超高電容器;活性碳;氮摻雜多孔石墨烯;石墨烯奈米條;supercapacitor;activated carbon;nitrogen-doped holey graphene;graphene nanostripes
    日期: 2018-10-18
    上傳時間: 2019-04-02 14:30:17 (UTC+8)
    出版者: 國立中央大學
    摘要: 本研究主要是利用石墨烯作為助導劑並添加於活性碳,以製備活性碳/石墨烯複合電極材料。期望藉由石墨烯之添加、不同石墨烯助導劑的改質、活性碳與石墨烯之間的比例調整,使超高電容器具有更為優異之電化學性質表現。電解液則是選用商業上較常使用的1 M TEABF4/PC (Tetraethylammonium Tetrafluoroborate)/(Propylene Carbonate)做為電解液。
    首先探討不同改質之石墨烯助導劑對於超高電容器的影響:本研究將採用四種不同的石墨烯作為助導劑並進行比較,分別為於氮氣的氣氛下將GO以升溫速率5 oC/min升溫至900 oC並持溫1 hr,製備無孔洞石墨烯 (GEs),以及以升溫速率40 oC /min升溫至900 oC並持溫1 hr,製備多孔石墨烯 (HGEs)。至於氮摻雜之多孔石墨烯 (NHGEs)則是於NO的氣氛下,將GO以升溫速率40 oC /min升溫至900 oC並持溫1 hr後製備而成。此外,本研究也將選用準一維結構之石墨烯奈米條 (GNSPs)作為助導劑,藉以探討維度效應之石墨烯助導劑對於超高電容的影響,並且進一步地針對不同比例之GNSPs助導劑的添加量進行研究,其添加的比例分別為AC:GNSPs = 80:1、40:1、20:1。
    在前述四種石墨烯助導劑之中,AC:GNSPs = 40:1具有最為優異之電性表現。由材料分析能夠觀察到:GNSPs屬於準一維結構之石墨烯,且其維度相較於另外三種還原氧化石墨烯 (GEs、HGEs、NHGEs)小;在電化學分析方面,GNSPs優異的導電性與其較小的尺度,將有助於提升超高電容器之電性表現,並改善漏電流等特性。研究結果顯示,AC/GNSPs於電流密度1 A/g時,擁有116 F/g之電容值;於電流密度50 A/g時,仍有54 F/g之電容值;於功率密度31.5 kW/kg時,具有能量密度11.7 Wh/kg,且於六千圈充放電後仍有85%的維持率。相較於AC/GNSPs,未添加石墨烯助導劑之ACs,其高速電容值為21 F/g,且於功率密度31.5 kW/kg時,能量密度僅有4.6 Wh/kg。
    ;In this study, a AC/graphene composite was provided which used graphene as additive. Through the addition of graphene, different modifications of graphene additive and the different AC/graphene ratios enhance supercapacitor performance. 1 M TEABF4 in PC was used as commercial electrolyte.
    Firstly, we studied the effect of different modified graphene additive on supercapacitor. We chose four types of graphene additives: Graphene (GEs) and holey graphene (HGEs) were made by GO with heating rate 5 oC/min and 40 oC/min, respectively, to 900 oC for 1 hr in N2 atmosphere. Nitrogen-doped holey graphene (NHGEs) was produced by GO with heating rate 40 oC/min to 900 oC for 1 hr in NO atmosphere. Besides, we also provided the quasi-one dimension graphene additive (graphene nanostripes, GNSPs) to study the effect of reduced dimension graphene on supercapacitor. Finally, we studied the effect of different AC/graphene ratios.
    In this study, AC/GNSPs delivers a capacitance of 116 F/g and 54 F/g at 1 A/g and 50 A/g, respectively. At power density of 31.5 kW/kg, the energy density of AC/GNSPs is 11.7 Wh/kg which is around 2.5 times higher than ACs (4.6 Wh/kg). After 6000 cycles, the retention of AC/GNSPs is 85%.
    顯示於類別:[材料科學與工程研究所 ] 博碩士論文

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