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DEVELOPMENT OF HIGH POWER CONVERSION EFFICIENCY OF HYBRID POLYMER POLY (3-HEXILTHIOPHENE) ; ZINC OXIDE NANOPARTICLES SOLAR CELLS
The ever increasing consumption and demand of electrical energy and depling non-renewable energy resouces and disruptive due to greenhouse gases has ...
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Code CallNo Lokasi Ketersediaan 010050005545 530..598 24 Ayi d Perpustakaan Pusat (Referensi kls 500) Tersedia -
Perpustakaan Perpustakaan PusatJudul Seri -No. Panggil 530..598 24 Ayi dPenerbit Fakultas MIPA UNPAD : Jatinangor., 2014 Deskripsi Fisik 68 hlm, ill, ; 29 cmBahasa IndonesiaISBN/ISSN -Klasifikasi 530..598 24Tipe Isi -Tipe Media -Tipe Pembawa -Edisi -Subyek Info Detil Spesifik ReferesniPernyataan Tanggungjawab Ayi Bahtiar -
The ever increasing consumption and demand of electrical energy and depling non-renewable energy resouces and disruptive due to greenhouse gases has aroused much interest in renewable energy source . Solar cell is an effective device for genarting electricity through solar energy conversion. Lots of researchers have paid effort to find best performance pf solar cells. Recently, semiconducting polymer havue been intensively studied and developed as active material for solar cells because they can be easly prepare as thin films by use of simple technique, so that the cost-polymer solar cell production can be cheaper. However, the achived power conversion efficiency (PCE) is still lower than 15% which is the lower limit for mass production and wide application. Some strategies issues for improving PCE of solar cells are using tandem solar cell, controlling morphology of active material and understanding charge carrier transport i active material of solar cells. -
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