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Room-temperature-concerted switch made of a binary atom cluster

Switches made from just a few atoms are the ultimate limit for reducing the size of electronic devices. Inami et al. now demonstrate a room-temperature switch in which the formation of a binary atom cluster on a semiconductor surface is altered using a scanning probe microscopy tip.

Eiichi Inami
Ikutaro Hamada
Yoshiaki Sugimoto
Research06 Feb 2015
Nature Communications

Volume: 6, P: 1-7
Terahertz dynamics of electron–vibron coupling in single molecules with tunable electrostatic potential

Terahertz (THz) spectroscopy based on a single-molecule transistor detects a THz-induced centre-of-mass oscillation of a fullerene molecule. Its sensitivity is so high that the spectrum changes on adding (removing) an electron to (from) the molecule.

Shaoqing Du
Kenji Yoshida
Kazuhiko Hirakawa
Research03 Sept 2018
Nature Photonics

Volume: 12, P: 608-612
Photoelectron Holographic Atomic Arrangement Imaging of Cleaved Bimetal-intercalated Graphite Superconductor Surface

Fumihiko Matsui
Ritsuko Eguchi
Yoshihiro Kubozono
ResearchOpen Access04 Nov 2016
Scientific Reports

Volume: 6, P: 1-10
Atomic-precision control of plasmon-induced single-molecule switching in a metal–semiconductor nanojunction

Single-molecule manipulation using light is essential for miniaturised optoelectronics. Here, the authors report the photoswitch of a molecule-silicon interface precisely tuned by 10-picometre-scale position control of a silver tip with localised plasmons.

Youngwook Park
Ikutaro Hamada
Akitoshi Shiotari
ResearchOpen Access07 Aug 2024
Nature Communications

Volume: 15, P: 1-9
Vibration-driven reaction of CO₂ on Cu surfaces via Eley–Rideal-type mechanism

Vibrational and translational energies have previously been observed to promote reactions at surfaces occurring via dissociative mechanisms. Now, it has been shown that the reaction of CO₂ with surface-adsorbed atomic hydrogen—which occurs via an associative (Eley–Rideal-type) mechanism—can be driven by vibrationally exciting CO₂.

Jiamei Quan
Fahdzi Muttaqien
Junji Nakamura
Research24 Jun 2019
Nature Chemistry

Volume: 11, P: 722-729
Carbon dioxide adsorption and conversion to methane and ethane on hydrogen boride sheets

Boron-containing materials have experimentally and theoretically been shown to be promising materials for CO₂ capture and conversion. Here, hydrogen-deficient 2D hydrogen boride sheets are shown to physisorb CO₂ and promote conversion to methane and ethane.

Taiga Goto
Shin-ichi Ito
Takahiro Kondo
ResearchOpen Access04 Oct 2022
Communications Chemistry

Volume: 5, P: 1-10
Chemical stability of hydrogen boride nanosheets in water

Nanoscale boron-based materials are promising for electronic devices, and it is important to understand their chemical stability. Here, hydrogen boride nanosheets are stable against hydrolysis in water, which ab initio calculations attribute to the charge state of boron and the boron-boron bond network.

Kurt Irvin M. Rojas
Nguyen Thanh Cuong
Ikutaro Hamada
ResearchOpen Access23 Jul 2021
Communications Materials

Volume: 2, P: 1-8

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Room-temperature-concerted switch made of a binary atom cluster

Terahertz dynamics of electron–vibron coupling in single molecules with tunable electrostatic potential

Photoelectron Holographic Atomic Arrangement Imaging of Cleaved Bimetal-intercalated Graphite Superconductor Surface

Atomic-precision control of plasmon-induced single-molecule switching in a metal–semiconductor nanojunction

Vibration-driven reaction of CO2 on Cu surfaces via Eley–Rideal-type mechanism

Carbon dioxide adsorption and conversion to methane and ethane on hydrogen boride sheets

Chemical stability of hydrogen boride nanosheets in water

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Vibration-driven reaction of CO₂ on Cu surfaces via Eley–Rideal-type mechanism