Conventional doping processes are no longer viable for realizing extreme structures, such as a δ-doped layer with multiple elements, such as the heavy Bi, within the silicon crystal. Here, we demonstrate the formation of (Bi + Er)-δ-dop...
PHYSICAL CHEMISTRY CHEMICAL PHYSICS 23(47) 26822-26828 2021年12月
Laying-down gold nanorods (GNRs) of a monolayer immobilized on a solid substrate was realized with a hybrid method, a combination of three elemental technologies: surface modification, electrophoresis, and solvent evaporation. The self-assembly of...
The self-assembled monolayer (SAM)-modified metallic nanoparticles (MNPs) often exhibit improved chemoselectivity in various catalytic reactions by controlling the reactants’ orientations adsorbed in the SAM; however, there have been a few example...
Diedrich A. Schmidt   Kazushi Miki   
CHEMPHYSCHEM 9(13) 1914-1919 2008年9月
We apply our previously developed deconvolution method and interpretation to analyze changes in the OH stretching band [nu(OH) bond] of low-concentration (<= 0.2 m) aqueous solutions of NaCl and KCl. We treat these simple, monovalent ions as de...
Using a two bit molecular switch, an ultra-dense memory chip has been built following a fully automated fabrication process. Well-ordered templates are grown naturally using a well-defined protocol of temperature variation. This template is so des...
J. Gardener   J. H. G. Owen   K. Miki   S. Heutz   
SURFACE SCIENCE 602(4) 843-851 2008年2月
Different growth modes were identified using scanning tunnelling microscopy (STM) in the initial stages of ultra-thin films growth of copper phthalocyanine (CuPc) on Si(001) surfaces terminated with ammonia (Si(001):NH(3)) and hydrogen (Si(001):H)...
J. Gardener   J. H. G. Owen   K. Miki   S. Heutz   
SURFACE SCIENCE 602(4) 843-851 2008年2月
Different growth modes were identified using scanning tunnelling microscopy (STM) in the initial stages of ultra-thin films growth of copper phthalocyanine (CuPc) on Si(001) surfaces terminated with ammonia (Si(001):NH(3)) and hydrogen (Si(001):H)...