LDR | | 01946nmm uu200445 4500 |
001 | | 000000332589 |
005 | | 20240805171055 |
008 | | 181129s2018 |||||||||||||||||c||eng d |
020 | |
▼a 9780438077041 |
035 | |
▼a (MiAaPQ)AAI10789257 |
035 | |
▼a (MiAaPQ)iastate:17250 |
040 | |
▼a MiAaPQ
▼c MiAaPQ
▼d 248032 |
082 | 0 |
▼a 621.3 |
100 | 1 |
▼a Shah, Satvik. |
245 | 10 |
▼a Investigating Degradation Pathways in Organic Solar Cell Materials. |
260 | |
▼a [S.l.] :
▼b Iowa State University.,
▼c 2018 |
260 | 1 |
▼a Ann Arbor :
▼b ProQuest Dissertations & Theses,
▼c 2018 |
300 | |
▼a 97 p. |
500 | |
▼a Source: Dissertation Abstracts International, Volume: 79-11(E), Section: B. |
500 | |
▼a Advisers: Rana Biswas |
502 | 1 |
▼a Thesis (Ph.D.)--Iowa State University, 2018. |
520 | |
▼a Thin film organic solar is a recent technology with tremendous potential -- low cost materials, quicker manufacturing processes and synthetic tuning of organic materials to optimize material properties. Cell efficiencies > 12% have already been |
520 | |
▼a One of the most common type of thin film organic cell with efficiency &sim |
520 | |
▼a Understanding these pathways, it will be easier to synthetically tune organic materials much less prone to degradation, solving the bottleneck problem of instability for thin film organic solar cells and opening avenues to designing more stable |
590 | |
▼a School code: 0097. |
650 | 4 |
▼a Electrical engineering. |
650 | 4 |
▼a Materials science. |
650 | 4 |
▼a Organic chemistry. |
690 | |
▼a 0544 |
690 | |
▼a 0794 |
690 | |
▼a 0490 |
710 | 20 |
▼a Iowa State University.
▼b Electrical and Computer Engineering. |
773 | 0 |
▼t Dissertation Abstracts International
▼g 79-11B(E). |
773 | |
▼t Dissertation Abstract International |
790 | |
▼a 0097 |
791 | |
▼a Ph.D. |
792 | |
▼a 2018 |
793 | |
▼a English |
856 | 40 |
▼u http://www.riss.kr/pdu/ddodLink.do?id=T14997497
▼n KERIS |
980 | |
▼a 201812
▼f 2019 |
990 | |
▼a 관리자 |