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Chiaki Terashima
Researcher at Tokyo University of Science
Publications - 155
Citations - 5815
Chiaki Terashima is an academic researcher from Tokyo University of Science. The author has contributed to research in topics: Photocatalysis & Diamond. The author has an hindex of 37, co-authored 141 publications receiving 4176 citations. Previous affiliations of Chiaki Terashima include Nagoya University & University of Tokyo.
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High-yield electrochemical production of formaldehyde from CO2 and seawater.
TL;DR: This work presents their work on the electrochemical reduction of CO2 in seawater using a boron-doped diamond (BDD) electrode under ambient conditions to produce formaldehyde, which overcomes the usual limitation of the low yield of higher-order products, and also reduces the generation of H2.
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Superhydrophobic Surfaces Developed by Mimicking Hierarchical Surface Morphology of Lotus Leaf
TL;DR: The different wetting properties of the natural superhydrophobic lotus leaves are described and a comprehensive state-of-the-art discussion on the extensive research carried out in the field of artificial superHydrophobic surfaces which are developed by mimicking the lotus leaf-like dual scale micro/nanostructure is provided.
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Thermodynamic and kinetic analysis of heterogeneous photocatalysis for semiconductor systems.
TL;DR: The thermodynamic driving force of photocatalysis was explained, and the functions of light and heat in photoc atalysis were distinguished, and some applications of the D-I model to study photocatalytic kinetics were discussed.
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A mechanically bendable superhydrophobic steel surface with self-cleaning and corrosion-resistant properties
Sanjay S. Latthe,Pitchaimuthu Sudhagar,Anitha Devadoss,A. Madhan Kumar,Shanhu Liu,Chiaki Terashima,Kazuya Nakata,Akira Fujishima +7 more
TL;DR: In this paper, a super-hydrophobic steel surface was developed for bending to 90° and 180° and studied the wetting properties on the bent area, which showed absolutely no change in superhydrophobicity.
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Photoelectrochemical biosensors: New insights into promising photoelectrodes and signal amplification strategies
TL;DR: In this article, a review of recent efforts indicating the significance of electrode design to enhance the performance of PEC biosensor with semiconductor photocatalytic materials is presented, with the objective of emphasising the implications of photoexcited (charge) carrier transport and separation at nano-bio interfaces.