Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/91527
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dc.contributor李榮和zh_TW
dc.contributorRong-Ho Leeen_US
dc.contributor.authorSheng-Kai Tsengen_US
dc.contributor.author曾聖凱zh_TW
dc.contributor.other化學工程學系所zh_TW
dc.date2015zh_TW
dc.date.accessioned2015-12-11T06:51:07Z-
dc.identifierU0005-2508201512114800zh_TW
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dc.identifier.urihttp://hdl.handle.net/11455/91527-
dc.description.abstract本研究將甲基丙烯酸-2-羥基乙酯 (2-Hydroxyethyl methacrylate) 與亞硫酰氯 (Thionyl chloride) 反應,使末端上之羥基取代成氯化烴,再將氯化烴與碘化納 (Sodium iodide) 反應,使末端上之氯化烴取代成碘化烴,最後再將碘化烴與1-正丁基咪唑 (1-(n-Butyl) imidazole) 反應,製備出含咪唑官能基之離子液體單體([(2-methacryloyloxy)ethyl]-3-butylimidazolium iodide,MEBIm-I),將此離子液體 (IL) 單體與丙烯腈 (Acrylonitrile) 單體、聚乙二醇甲基丙烯酸酯 (POEM) 單體依不同重量百分比,以偶氮二異丁腈 (Azobisisobutyronitrile,AIBN) 作為起始劑進行自由基聚合,合成出離子液體 (IL) ‐丙烯腈 (A) 二元共聚物ILA11 (IL:A = 1:1,w/w)、以及離子液體 (IL) ‐聚乙二醇甲基丙烯酸酯 (P) –丙烯腈 (A) 三元共聚物 ILPA431 (IL:P:A = 4:3:1,w/w/w) 、ILPA211 (IL:P:A = 2:1:1,w/w/w)、ILPA413 (IL:P:A = 4:1:3,w/w/w),其中,其重量百分比為進料時之重量百分比。經由1H-NMR光譜分析、結合元素分析之結果,推算出各個單體在共聚高分子內之莫耳數比,以鑑定確認化學結構。由TGA與DSC進行熱性質之分析,發現三元離子體共聚高分子比起二元離子液體共聚高分子具有更高的熱裂解溫度,而在DSC方面,ILPA211與ILPA431也有相對較低的玻璃轉移溫度。 本研究將合成出的離子液體共聚高分子以10wt%添加於以乙腈 (Acetonitrile,ACN) 為溶劑之液態電解質內,形成離子液體高分子電解質,進行離子導電度與極限擴散電流分析之量測,發現當共聚高分子內之POEM單體含量增加會使離子導電度與I3-之擴散係數提升。將上述之電解質注入於以N719染料製成之染料敏化太陽能電池 (DSSC) ,並進行光電轉換效率與電化學交流阻抗量測。研究結果顯示,相較於液態電解質之DSSC元件,添加了離子液體高分子於電解質之DSSC元件皆有較高的電流密度 (Jsc),但卻會使填充因子 (FF) 下降。其中除了ILPA211之電解質外,其其它高分子電解質所配製之DSSC元件,其光電轉換效率皆大於液態電解質之光電轉換效率6.7%,當中又以ILPA431具有最高之光電轉換效率 7.50%。zh_TW
dc.description.abstractA series of ionic liquid copolymers have been synthesized by the copolymerization of the imidazolium-containing ionic liquid (IL) monomer (MEBIm-I), poly(ethylene glycol) methyl ether methacrylate (POEM), and acrylonitrile with different feed weight ratios. The copolymers were prepared through the free radical polymerization by using the AIBN initiator. Copolymers ILP11 and ILA11 were obtained by the copolymerization of ionic liquid monomer with POEM and acrylonitrile, respectively. Moreover, copolymers ILPA413, ILPA211, ILPA431 were obtained by the copolymerization of ionic liquid monomer with POEM and acrylonitrile in different feed weight ratios (ionic liquid monomer: POEM: acrylonitrile = 4:1:3, 2:1:1, and 4:3:1). Chemical structures of these ionic liquid copolymers have been characterized and confirmed by using 1H-NMR spectroscopy and elemental analyzer. The molar ratios of ionic liquid monomer, POEM, and acrylonitrile in copolymers ILPA413, ILPA211, and ILPA431 are about 1:0.15:1.95, 1:0.28:1.17, and 1:0.38:0.48, respectively. In addition, TGA results indicated that the thermal stability of these ionic liquid copolymers were enhanced by increasing the acrylonitrile content. Higher glass transition temperature was observed for the copolymer with higher acrylonitrile content. Apart from that, ionic liquid polymer based gel electrolytes were prepared by addition of 10 wt % ionic liquid copolymer in acetonitrile solvent based liquid electrolyte. Higher ionic conductivity and larger diffusion coefficient of I3- were observed for the gel electrolyte based on the ionic liquid copolymer with higher POEM content. On the other hand, photovoltaic (PV) and electrochemical impedance properties of these ionic liquid copolymers based DSSCs were discussed. Better PV performance was obtained from the ionic liquid polymer gel electrolyte based DSSC as compared to that of the ionic liquid electrolyte based DSSC. The ionic liquid copolymer ILPA431 based DSSCs exhibited the highest photoelectric conversion efficiency (PCE = 7.503%).en_US
dc.description.tableofcontents誌謝 I 摘要 II Abstract IV 目錄 VI 表目錄 VIII 圖目錄 IX 第1章 緒論 1 1-1 前言 1 1-2 染料敏化太陽能電池簡介 1 1-3 染料敏化太陽能電池工作原理 2 1-3-1染料敏化太陽能電池光電極 3 1-3-2染料敏化太陽能電池電解質 4 1-3-3染料敏化太陽能電池的對電極 5 第2章 文獻回顧與研究動機 6 2-1 離子液體電解質 6 2-2 離子液體與聚氧乙烯高分子共聚物電解質 7 2-3 離子液體與丙烯腈共聚高分子電解質 10 2-4 研究動機 11 第3章 實驗 12 3-1 化學藥品 12 3-2 溶劑、藥品前處理 13 3-3 實驗儀器 14 3-4 合成實驗 16 3-5 DSSC元件製作 21 3-5-1白金對電極之製備 21 3-5-2離子液體高分子電解質之製備 21 3-5-3 TiO2光電極之製備 22 3-5-4 DSSC元件之組裝 22 第4章 結果與討論 23 4-1 化合物之基本特性 23 4-1-1離子液體之結構分析 23 4-1-2熱性質分析 27 4-2 電解質離子導電度分析 28 4-3 極限擴散電流分析 29 4-4 元件光電效率分析 32 4-5 太陽光照射下之交流阻抗分析 36 第5章 結論 40 第6章 參考文獻 42 附錄 45zh_TW
dc.language.isozh_TWzh_TW
dc.rights同意授權瀏覽/列印電子全文服務,2018-08-26起公開。zh_TW
dc.subjectimidazolium groupen_US
dc.subjectacrylonitrileen_US
dc.subjectpoly(ethylene oxide)en_US
dc.subjectpoly(ethylene glycol)en_US
dc.subjectionic liquid polymer electrolytesen_US
dc.subjectdye-sensitized solar cell.en_US
dc.subject咪唑離子機團zh_TW
dc.subject丙烯腈zh_TW
dc.subject聚乙二醇zh_TW
dc.subject聚氧乙烯zh_TW
dc.subject離子液體高分子zh_TW
dc.subject染料敏化太陽能電池zh_TW
dc.title一系列新型離子液體共聚合物之合成及其在染料敏化太陽能電池之研究zh_TW
dc.titleSynthesis of a Series of Novel Ionic liquid Copolymers for Dye Sensitized Solar Cellsen_US
dc.typeThesis and Dissertationen_US
dc.date.paperformatopenaccess2018-08-26zh_TW
dc.date.openaccess2018-08-26-
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