太陽能電池之材料及製程知識庫系統 - 碩博士論文網

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太陽能發電產業發展蓬勃,知識日新月異,為了達到更有效率的學習,一個架構清晰的知識庫有其必要性。

本研究以知識管理為出發點,針對太陽能電池的原理、材料及其製程, ... 資料載入處理中... 跳到主要內容 臺灣博碩士論文加值系統 ::: 網站導覽| 首頁| 關於本站| 聯絡我們| 國圖首頁| 常見問題| 操作說明 English |FB專頁 |Mobile 免費會員 登入| 註冊 功能切換導覽列 (159.65.142.206)您好!臺灣時間:2021/12/2011:03 字體大小:       ::: 詳目顯示 recordfocus 第1筆/ 共1筆  /1頁 論文基本資料 摘要 外文摘要 目次 參考文獻 電子全文 紙本論文 論文連結 QRCode 本論文永久網址: 複製永久網址Twitter研究生:張雅雯研究生(外文):Ya-wenChang論文名稱:太陽能電池之材料及製程知識庫系統論文名稱(外文):AKnowledge-BasedSystemforMaterialsandProcessesinSolarCellFabrication指導教授:黃文星指導教授(外文):Weng-singHwang學位類別:碩士校院名稱:國立成功大學系所名稱:材料科學及工程學系碩博士班學門:工程學門學類:材料工程學類論文種類:學術論文論文出版年:2009畢業學年度:97語文別:中文論文頁數:144中文關鍵詞:太陽能電池、知識庫外文關鍵詞:knowledge-based、solarcell相關次數: 被引用:4點閱:1173評分:下載:71書目收藏:2 太陽能發電產業發展蓬勃,知識日新月異,為了達到更有效率的學習,一個架構清晰的知識庫有其必要性。

本研究以知識管理為出發點,針對太陽能電池的原理、材料及其製程,建構一太陽能電池知識庫。

並以網頁形式呈現此知識庫。

本研究所建立之知識庫具備分類清晰的架構;首先依太陽能電池的材料區分為矽太陽能電池、化合物半導體太陽能電池、染料敏化太陽能電池、有機高分子太陽能電池。

其中矽太陽能電池又分成矽基太陽能電池及矽薄膜太陽能電池兩種。

化合物半導體太陽能電池又分成二六族碲化鎘太陽能電池、銅銦鎵二硒系列太陽能電池及三五族砷化鎵太陽能電池等三種。

每個不同的分類項目下方依太陽能電池中的結構、材料類別、以及製程等要點分述,最終彙整建構成一個太陽能電池知識庫,並將之以網頁形式呈現。

本研究所建立之知識庫網站具有知識管理之價值,不僅能幫助太陽光電領域初學者瞭解各種太陽能電池中的結構、材料及製程,亦提供太陽光電領域進階人員一個實用的知識庫系統。

而與其他的學習管道比較,本知識庫網站不僅便於增修、更新與擴充,更具備全文檢索功能,為一因應e世代潮流的知識取得管道。

Thereareconstantlynewtechnologiesandinformationgeneratedinthefieldofphotovoltaic.Inordertoextractknowledgeeffectively,weneedaknowledge-basedsystemwithaclearstructure.Inthisthesisresearch,aknowledge-basedsystemformaterialsandprocessesinsolarcellfabricationhasbeenestablishedfromthestandpointofknowledgemanagementanddemonstratedintheformofweb-sites.Aclearstructureisemployedinthisknowledge-basedsystem.Inthefirstlevel,allfilmswereclassifiedintofourcategoriesbasedontheirelectricalproperties:siliconsolarcell,compoundsemiconductorsolarcell,dyesensitizedsolarcellandorganic/polymersolarcell.Inthesecondlevel,siliconsolarcellwasclassifiedintotwoclassesbasedontheirstructures:siliconbasedsolarcellandthinfilmsiliconsolarcell.Compoundsemiconductorwasfurtherclassifiedintothreeclassesbasedontheirmaterials:Cadmiumtelluridesolarcell,CuInGaSe2solarcellandGaAssolarcell.Eachclassatthesecondlevelwasfurtherdividedinaccordancewiththepositions,materials,processes,etc.Arrangingalltheinformation,theknowledge-basedsystemwasestablished.Thesolarcellknowledge-basedsystemhasthevalueofknowledgemanagement.Itcannotonlyhelpthebeginnersbutalsomoreexperiencedengineersinthefieldofsolarphotovoltaic.Comparewithotherwaysofknowledgeacquisition,thisknowledge-basedsystemiseasiertobemodifiedandupdated.ItalsohasaSite-searchfunctiontoenhanceitsvalue. 目錄中文摘要IABSTRACTII致謝III目錄V第一章緒論11.1研究動機與目的11.2研究內容與架構21.3研究流程3第二章文獻回顧72.1無機太陽能電池元件運作原理72.1.1基本太陽能電池的運作原理72.1.2決定太陽能電池的效能的因素82.2太陽能電池實際設計考量11第三章知識庫系統的架構173.1矽太陽能電池173.1.1矽基太陽能電池173.1.1.1基板183.1.1.1.1太陽能級多晶矽原料製造技術193.1.1.1.2太陽能級矽單晶片製造技術223.1.1.1.3多晶矽晶片製造技術253.1.1.1.1.1鑄造多晶矽錠263.1.1.1.1.2薄板多晶矽片製造技術273.1.1.2表面粗糙化結構303.1.1.3p-n二極體313.1.1.3.1磷擴散製程323.1.1.3.2邊緣絕緣處理333.1.1.4抗反射層343.1.1.5電極363.1.2薄膜矽太陽能電池383.1.2.1薄膜結晶矽太陽能電池393.1.2.1.1光線留滯結構403.1.2.1.2p-n薄膜433.1.2.1.2.1薄膜沉積技術433.1.2.1.2.2薄膜晶粒改善技術463.1.2.2薄膜非晶矽太陽能電池503.1.2.2.1TCO533.1.2.2.2p-i-n薄膜533.1.2.2.2.1非晶矽的原子結構與特性543.1.2.2.2.2PECVD(PlasmaEnhancedCVD)553.1.2.2.2.3HWCVD(HotWireCVD)573.1.2.2.2.4合金膜的形成573.2化合物半導體太陽能電池583.2.1三五族太陽能電池583.2.1.1Ge電池603.2.1.2GaAs電池603.2.1.3GaInP電池613.2.1.4隧道結(TunnelJunction)623.2.2二六族碲化鎘太陽能電池633.2.2.1p-n薄膜643.2.2.1.1物理氣相沉積法653.2.2.1.2密閉空間昇華法663.2.2.1.3氣相傳輸沉積法673.2.2.1.4電化學沉積法673.2.2.1.5噴塗沉積法673.2.2.1.6有機金屬化學氣相沉積法683.2.2.1.7網印沉積法683.2.2.2背面電極683.2.3銅銦鎵二硒系列太陽能電池693.2.3.1電極703.2.3.2p-type薄膜713.2.3.2.1CuInGaSe2及CuInSe2713.2.3.2.2二階段共同蒸鍍723.2.3.2.3三階段共同蒸鍍733.2.3.2.4硒化法743.2.3.3n-type薄膜753.2.3.3.1化學槽水域法763.3染料敏化太陽能電池763.3.1染料敏化太陽能電池的發電原理783.3.2多孔洞TiO2光導電極793.3.3染料光敏化劑823.3.4電解質853.3.5輔助電極873.4有機/高分子太陽能電池883.4.1有機/高分子太陽能電池的工作原理893.4.2有機/高分子太陽能電池的演進913.4.2.1單層結構913.4.2.2電子予體/受體雙層異質接面結構923.4.2.3電子予體摻混受體單層異質接面結構923.4.2.4高分子摻混無機半導體奈米材料之單層異質接面結構943.4.3常用於製作有機/高分子太陽能電池的材料96第四章知識庫系統操作介面的設計1164.1網頁設計的軟體工具1164.2美工與影像處理118第五章使用範例1245.1利用主選單1245.2利用全文檢索功能124第六章總結132第七章未來工作134參考文獻135 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