Chemical Management for Colorful, Efficient, and Stable Inorganic–Organic Hybrid Nanostructured Solar Cells

Chemical Management for Colorful, Efficient, and Stable Inorganic–Organic Hybrid Nanostructured Solar Cells

Chemically tuned inorganic–organic hybrid materials, based on CH3NH3(MA)Pb(I1–x Br x )3 perovskites, have been studied using UV–vis absorption and X-ray diffraction patterns and applied to nanostructured solar cells. The band gap engineering brought about by the chemical management of MAPb(I1–x Br...

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Veröffentlicht in:Nano letters 2013-04, Vol.13 (4), p.1764-1769
Hauptverfasser: Noh, Jun Hong, Im, Sang Hyuk, Heo, Jin Hyuck, Mandal, Tarak N, Seok, Sang Il
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Calcium Compounds - chemistry
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Conducting polymers
Electron states and collective excitations in thin films, multilayers, quantum wells, mesoscopic and nanoscale systems
Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures
Energy
Energy conversion efficiency
Exact sciences and technology
Fullerenes and related materials
Low-dimensional structures (superlattices, quantum well structures, multilayers): structure, and nonelectronic properties
Management
Nanostructure
Nanostructures - chemistry
Natural energy
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Oxides - chemistry
Perovskites
Photovoltaic cells
Photovoltaic conversion
Physics
Solar cells
Solar cells. Photoelectrochemical cells
Solar Energy
Surfaces and interfaces
thin films and whiskers (structure and nonelectronic properties)
Titanium - chemistry
Titanium dioxide
Ultraviolet Rays
Visible and ultraviolet spectra
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Zusammenfassung:Chemically tuned inorganic–organic hybrid materials, based on CH3NH3(MA)Pb(I1–x Br x )3 perovskites, have been studied using UV–vis absorption and X-ray diffraction patterns and applied to nanostructured solar cells. The band gap engineering brought about by the chemical management of MAPb(I1–x Br x )3 perovskites can be controllably tuned to cover almost the entire visible spectrum, enabling the realization of colorful solar cells. We demonstrate highly efficient solar cells exhibiting 12.3% in a power conversion efficiency of under standard AM 1.5, for the most efficient device, as a result of tunable composition for the light harvester in conjunction with a mesoporous TiO2 film and a hole conducting polymer. We believe that the works highlighted in this paper represent one step toward the realization of low-cost, high-efficiency, and long-term stability with colorful solar cells.
ISSN:1530-6984
1530-6992
DOI:10.1021/nl400349b