MARC

 008100312s2005        ulka                    000      kor
■020    ▼a8972834629
■0801  ▼a620.92.1
■082    ▼a621.31244▼b이73ㅌ▼223
■090    ▼a621.31244▼b이73ㅌ
■1001  ▼a이재형,  임동건,  이준신  공저
■24510▼a태양전지  원론▼d이재형,  임동건,  이준신  공저
■260    ▼a서울▼b홍릉과학출판사▼c2005
■300    ▼a433p.▼b삽도▼c26cm
■505    ▼a제1장  /  빛의  특성▼c2▼a1.1  태양광  스펙트럼▼c3▼a1.2  광자(photon)▼c9▼a1.3  광전효과(photoelectric  effect)▼c11▼a1.4  파동으로서의  전자▼c15▼a1.5  태양에너지와  태양광  발전▼c17▼aChapter  2  /  실리콘  특성과  반도체  기초▼c23▼a2.1  실리콘  결합모델과  에너지  밴드▼c25▼a2.2  캐리어  농도▼c28▼a2.3  도핑▼c3300▼a2.4  표동▼c3811▼a2.5  확산(Diffusion)▼c4722▼a2.6  광학적  흡수와  캐리어  생성▼c5133▼a2.7  재결합과  캐리어  수명▼c5544▼a2.8  정상  상태  해석▼c5855▼a2.9  이상적인  pn  접합▼c6066▼a2.10  pn  접합  밴드  다이어그램▼c7677▼a2.11  pn  접합의  공핍층  정전용량▼c8188▼a2.12  확산(저장)  정전용량과  소  신호  모델▼c8399▼aChapter  3  /  태양전지  제조방법▼c8700▼a3.1  태양전지  재료▼c8911▼a3.2  단결정  실리콘  태양전지  제조방법▼c9022▼a3.3  다결정  실리콘  태양전지  제조방법▼c9233▼a3.4  박막  실리콘  태양전지  제조방법▼c9244▼a3.5  태양전지  모듈  제조  방법▼c9455▼aChapter  4  /  태양전지  특성▼c9966▼a4.1  태양전지의  구조▼c10177▼a4.2  태양전지의  에너지  변환▼c10188▼a4.3  태양전지의  전류-전압  특성▼c10499▼a4.4  태양전지의  등가회로▼c11000▼a4.5  태양전지의  분광반응도▼c11711▼aChapter  5  /  태양전지  종류▼c12522▼a5.1  태양전지의  종류▼c12733▼a5.2  단결정  실리콘  태양전지▼c12844▼a5.3  다결정  실리콘  태양전지▼c13355▼a5.4  박막형  다결정  실리콘  태양전지▼c13766▼a5.5  수소화된  비정질  실리콘  태양전지▼c14177▼a5.6  Ⅰ-Ⅲ-Ⅵ족  화합물  태양전지▼c16588▼a5.7  Ⅱ-Ⅵ족  화합물  반도체  태양전지▼c17699▼a5.8  Ⅲ-Ⅴ족  화합물  반도체  태양전지▼c17600▼a5.9  나노  태양전지▼c18211▼aChapter  6  /  태양전지  응용▼c19722▼a6.1  태양광발전  시스템▼c19933▼a6.2  소규모  태양전지  응용사례▼c21444▼a6.3  중규모  태양전지  응용사례▼c21655▼a6.4  대규모  태양전지  응용사례▼c21766▼a6.5  3  kW  계통연계  시스템  응용사례▼c21877▼aChapter  7/  진공(Vacuum)  시스템▼c22388▼a7.1  개요▼c22599▼a7.2  압력▼c22600▼a7.3  기체의  흐름▼c22811▼a7.4  진공펌프▼c23122▼a7.5  진공  게이지(Vacuum  guage)▼c23833▼aChapter  8  /  박막기술▼c24344▼a8.1  박막제조  및  공정▼c24555▼a8.2  물리기상증착(PVD)▼c24566▼a8.3  화학기상증착(CVD)▼c25577▼a8.4  전기도금(Electroplating)▼c26588▼a8.5  스크린  인쇄(Screen  printing)▼c26599▼aChapter  9  /  태양전지  제조공정  실무▼c26700▼a9.1  태양전지  제조공정▼c26911▼a9.2  실리콘  결정성장  및  웨이퍼  제조▼c26922▼a9.3  태양전지  기판  표면  가공▼c28033▼a9.4  에미터  형성▼c28644▼a9.5  후면  전계  형성▼c29755▼a9.6  반사방지막  형성▼c29866▼a9.7  전극  형성▼c30177▼aChapter  10  /  태양전지  특성규명  기술▼c30388▼a10.1  태양전지  재료  평가법▼c30599▼a10.2  도핑  프로파일  규명  기법▼c31300▼a10.3  박막  분석법▼c31711▼a10.4  태양전지  성능  평가▼c33422▼aChapter  11  /  태양전지  설계  기술▼c34133▼a11.1  태양전지  이론적  설계▼c34344▼a11.2  태양전지  기판소재▼c35155▼a11.3  태양전지  기판  세정과  표면  텍스쳐링  기술▼c35866▼a11.4  태양전지  emitter  형성  doping  기술▼c36677▼a11.5  태양전지  표면  부동태화(passivation)  기술▼c37088▼a11.6  태양전지  반사방지막  제조기술▼c37399▼a11.7  태양전지  금속전극  형성기술▼c37700▼a11.8  지상전력용  다결정  실리콘  태양전지  기술▼c38011▼aChapter  12  /  태양전지  향후  개발  방향과  미래  전망▼c38522▼a12.1  국내외  연구개발  현황▼c38733▼a12.2  일본의  태양전지  개발현황▼c38844▼a12.3  미국으  태양전지  개발현황▼c39255▼a12.4  유럽의  태양전지  개발  현황▼c39466▼a12.5  국내의  태양전지  개발현황▼c39477▼a12.6  태양전지  시장의  향후전망▼c39688▼a12.7  태양전지관련  주요회사▼c39899▼a12.8  국내외  태양전지  시장현황▼c40700▼a12.9  향후  태양전지  시장  전망▼c40911▼a부록  /  PHYSICAL  CONSTANNTS▼c41122▼a1.  단위▼c41333▼a2.  물리  상수▼c41944▼a3.  주요  반도체의  성질(300K)▼c42055▼a참고문헌▼c42166▼a찾아보기▼c42777
■9500  ▼c23,000

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