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One-step Method to Fabricate Organic-Inorganic Halide Perovskite Crystal for Thin Film Solar Cells Using Ionic Liquids as a Solvent

详细技术说明: This invention describes a one-step, organic solvent-free process toobtain thin films of organic-inorganic halide perovskites,emerging as a new generation of solar photovoltaic material, though theuse of ionic liquids.

*Abstract

Organic-inorganic halideperovskites are a broad class of photoactive materials with applications tosolar energy with current, certified, device efficiencies exceeding 20%. Because the fabrication of perovskite material isinexpensive, does not require clean room, extreme temperature, and involves fewerprocess steps, it has been favored to silicon in making solar cells.

Fabrication routes of thecrystalline form of halide perovskites can consist of a two-step approach, usingtwo salts in an organic solvent, depositing onto a substrate and heating toinduce crystallization. However filmquality is poor, time for crystal growth is limited (40-60 minutes) resultingin incomplete coverage of substrate and inconsistent thickness. Furthermore, one-stepdepositions have also been reported but require the use of volatile organicsolvents.

In this currentinvention, Wiesner’s group has developed a one-step, organic solvent-freemethod to fabricate methylammonium lead halideperovskites (MAPbX₃with e.g. MA = NH3CH3⁺, X = I⁻or Cl⁻ or Br⁻) using an ionic liquidin which one of the ions is methylammonium (MAFa).

PotentialApplications

Thin films for photovoltaic devices
Anode materials in lithium-ion batteryapplications.

Advantages

On-stepprocess that avoid the formation of unidentified intermediate compoundswhich leads to better control of the perovskite film structure
Processdoes not require the use of organic solvents
Useof ionic liquids that are easier to purify from the crystal formed
Lowerannealing temperature allowing for as much as two orders of magnitude increase intime for crystal formation
Energysaving process
Minimalcrystal decomposition after 1000 minutes of formation
Filmobtained with excellent coverage and uniformity
Higherdegree of crystal grain orientation, which can correlate to improved deviceperformance.

*Licensing: Jeffrey C. Fearnjcf55@cornell.edu607-254-4502

其他

Issued Patent in the U.S. 9,895,714
Moore D.& al. (2015). Direct Crystallization Route to Methylammonium Lead IodidePerovskite from an Ionic Liquid, Chem.Mater., 27 (9), pp 3197–3199. DOI: 10.1021/cm5047484.

国家/地区: 美国

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