Wafer-Sized Ultrathin Gallium and Indium Nitride Nanosheets through the Ammonolysis of Liquid Metal Derived Oxides.
Nitu SyedAli ZavabetiKibret A MessaleaEnrico Della GasperaAaron James ElbourneAzmira JannatMd MohiuddinBao Yue ZhangGuolin ZhengLan WangSalvy P Russonull Dorna EsrafilzadehChris F McConvilleKourosh Kalantar-ZadehTorben DaenekePublished in: Journal of the American Chemical Society (2018)
We report the synthesis of centimeter sized ultrathin GaN and InN. The synthesis relies on the ammonolysis of liquid metal derived two-dimensional (2D) oxide sheets that were squeeze-transferred onto desired substrates. Wurtzite GaN nanosheets featured typical thicknesses of 1.3 nm, an optical bandgap of 3.5 eV and a carrier mobility of 21.5 cm2 V-1 s-1, while the InN featured a thickness of 2.0 nm. The deposited nanosheets were highly crystalline, grew along the (001) direction and featured a thickness of only three unit cells. The method provides a scalable approach for the integration of 2D morphologies of industrially important semiconductors into emerging electronics and optical devices.
Keyphrases
- metal organic framework
- reduced graphene oxide
- quantum dots
- light emitting
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- optical coherence tomography
- high resolution
- induced apoptosis
- photodynamic therapy
- highly efficient
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- gold nanoparticles
- ionic liquid
- high efficiency
- transition metal
- cell cycle arrest
- room temperature
- signaling pathway