Ji‐Ho Eom scite author profile

Direct graphene synthesis on substrates via chemical vapor deposition (CVD) is an attractive approach for manufacturing flexible electronic devices. The temperature for graphene synthesis must be below ∼200 °C to prevent substrate deformation while fabricating flexible devices on plastic substrates. Herein, we report a process whereby defect-free graphene is directly synthesized on a variety of substrates via the introduction of an ultrathin Ti catalytic layer, due to the strong affinity of Ti to carbon. Ti with a thickness of 10 nm was naturally oxidized by exposure to air before and after the graphene synthesis, and the various functions of neither the substrates nor the graphene were influenced. This report offers experimental evidence of high-quality graphene synthesis on Ti-coated substrates at 150 °C via CVD. The proposed methodology was applied to the fabrication of flexible and transparent thin-film capacitors with top electrodes of high-quality graphene.

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CVD-deposited hybrid lead halide perovskite films for high-responsivity, self-powered photodetectors with enhanced photo stability under ambient conditions

Pammi

Maddaka

Tran

et al. 2020

Nano Energy

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Ji‐Ho Eom

Piezoelectric properties of CH₃NH₃PbI₃perovskite thin films and their applications in piezoelectric generators

Enhanced output performance of a flexible piezoelectric energy harvester based on stable MAPbI3-PVDF composite films

An eco-friendly flexible piezoelectric energy harvester that delivers high output performance is based on lead-free MASnI3 films and MASnI3-PVDF composite films

Defect-Free Graphene Synthesized Directly at 150 °C via Chemical Vapor Deposition with No Transfer

CVD-deposited hybrid lead halide perovskite films for high-responsivity, self-powered photodetectors with enhanced photo stability under ambient conditions

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Ji‐Ho Eom

Piezoelectric properties of CH3NH3PbI3perovskite thin films and their applications in piezoelectric generators

Enhanced output performance of a flexible piezoelectric energy harvester based on stable MAPbI3-PVDF composite films

An eco-friendly flexible piezoelectric energy harvester that delivers high output performance is based on lead-free MASnI3 films and MASnI3-PVDF composite films

Defect-Free Graphene Synthesized Directly at 150 °C via Chemical Vapor Deposition with No Transfer

CVD-deposited hybrid lead halide perovskite films for high-responsivity, self-powered photodetectors with enhanced photo stability under ambient conditions

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Product

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Piezoelectric properties of CH₃NH₃PbI₃perovskite thin films and their applications in piezoelectric generators