Seite - 108 - in Photovoltaic Materials and Electronic Devices
Bild der Seite - 108 -
Text der Seite - 108 -
26. Mosconi, E.; Ronca, E.; De Angelis, F. First-principles investigation of the
Tio2/organohalide perovskites interface: The role of interfacial chlorine. J. Phys.
Chem.Lett. 2014,5, 2619–2625.
27. Williams, S.T.; Zuo, F.; Chueh, C.-C.; Liao, C.-Y.; Liang, P.-W.; Jen, A.K.Y. Role of chloride
in the morphological evolution of organo-lead halide perovskite thin films.AcsNano
2014,8, 10640–10654.
28. Tidhar, Y.; Edri, E.; Weissman, H.; Zohar, D.; Hodes, G.; Cahen, D.; Rybtchinski, B.;
Kirmayer, S.Crystallizationof methylammoniumlead halideperovskites: Implications
forphotovoltaicapplications. J.Am.Chem. Soc. 2014,136, 13249–13256.
29. Yan, K.; Long, M.; Zhang, T.; Wei, Z.; Chen, H.; Yang, S.; Xu, J. Hybrid halide perovskite
solarcellprecursors: Colloidalchemistryandcoordinationengineeringbehinddevice
processingforhighefficiency. J.Am.Chem.Soc. 2015,137, 4460–4468.
30. Zheng,L.;Zhang,D.;Ma,Y.;Lu,Z.;Chen,Z.;Wang,S.;Xiao,L.;Gong,Q.Morphology
control of the perovskite films for efficient solar cells. Dalton Trans. 2015, 44,
10582–10593.
31. Kim, H.S.; Lee, C.R.; Im, J.H.; Lee, K.B.; Moehl, T.; Marchioro, A.; Moon, S.J.;
Humphry-Baker, R.; Yum, J.H.; Moser, J.E.; et al. Lead iodide perovskite sensitized
all-solid-state submicron thin film mesoscopic solar cell with efficiency exceeding 9%.
Sci. Rep. 2012,2.
32. Lee,M.M.;Teuscher, J.;Miyasaka,T.;Murakami,T.N.;Snaith,H.J.Efficienthybridsolar
cellsbasedonmeso-superstructuredorganometalhalideperovskites.Science2012,338,
643–647.
33. Saliba, M.; Tan, K.W.; Sai, H.; Moore, D.T.; Scott, T.; Zhang, W.; Estroff, L.A.; Wiesner, U.;
Snaith, H.J. Influence of thermal processing protocol upon the crystallization and
photovoltaicperformanceoforganic-inorganicleadtrihalideperovskites. J.Phys.Chem.C
2014,118, 17171–17177.
34. Hsu, H.-L.; Chen, C.; Chang, J.-Y.; Yu, Y.-Y.; Shen, Y.-K. Two-step thermal annealing
improves the morphology of spin-coated films for highly efficient perovskite hybrid
photovoltaics.Nanoscale2014,6, 10281–10288.
35. Kang, R.; Kim, J.-E.; Yeo, J.-S.; Lee, S.; Jeon, Y.-J.; Kim, D.-Y. Optimized organometal
halideperovskiteplanarhybridsolarcellsviacontrolofsolventevaporationrate. J.Phys.
Chem.C2014,118, 26513–26520.
36. Guo, Y.; Liu, C.; Inoue, K.; Harano, K.; Tanaka, H.; Nakamura, E. Enhancement in the
efficiency of an organic-inorganic hybrid solar cell with a doped P3HT hole-transporting
layeronavoid-freeperovskiteactive layer. J.Mater. Chem.A2014,2, 13827–13830.
37. Liang,P.-W.;Liao,C.-Y.;Chueh,C.-C.;Zuo,F.;Williams,S.T.;Xin,X.-K.;Lin, J.; Jen,A.K.Y.
Additiveenhancedcrystallizationofsolution-processedperovskite forhighlyefficient
planar-heterojunctionsolarcells.Adv.Mater. 2014,26, 3748–3754.
38. Chueh, C.-C.; Liao, C.-Y.; Zuo, F.; Williams, S.T.; Liang, P.-W.; Jen, A.K.Y. The roles of
alkylhalide additives inenhancing perovskite solarcellperformance. J.Mater. Chem.A
2014,3, 9058–9062.
108
Photovoltaic Materials and Electronic Devices
- Titel
- Photovoltaic Materials and Electronic Devices
- Autor
- Joshua M. Pearce
- Herausgeber
- MDPI
- Ort
- Basel
- Datum
- 2016
- Sprache
- englisch
- Lizenz
- CC BY-NC-ND 4.0
- ISBN
- 978-3-03842-217-4
- Abmessungen
- 17.0 x 24.4 cm
- Seiten
- 216
- Schlagwörter
- Perovskite, Plasmonics, Nanostructured Materials, Anti-Reflection Coatings, Transparent Conductive Oxides, Amorphous Silicon, Dye-sensitized Solar Cells (DSSCs) Materials, Organic Photovoltaic Materials, Solar Energy Materials
- Kategorien
- Naturwissenschaften Physik
- Technik