Add to ORKGWe report a surface science study of fluorinated and hydrogenated ethers adsorbed at a metal surface. Fluorinated ethers bond less strongly to ruthenium surfaces than the hydrogenated analogs, both for atomically-smooth and atomically-rough surfaces. For the hydrogenated ethers, 0.03 to 0.17 monolayers undergo decomposition, while fluorinated ethers do not decompose significantly
The formation of self-assembled surface structures based on hydrogen bonding is ones of the most ac...
The chemistry of carbon monoxide and dinitrogen on an atomically stepped Ru(109) and an atomically s...
The authors discuss the role of the presence of dangling H bonds from water or from surface hydroxyl...
We have studied adsorption, desorption, and decomposition of ethers on Ru(001), an atomically-smooth...
We have studied the interactions of water and perfluorodiethyl ether on Ru(100) in order to model th...
Ultra-high vacuum surface techniques are used to determine the effect of substituents (mainly fluori...
BF3 was co-condensed with (C2H5)2O, (CF3CH2)2O and (C2F5)2O in excess argon at 15 K. Infrared spectr...
The AM1 semiempirical quantum chemical method was used to model the interaction of perfluoroethers w...
A variety of surface-sensitive techniques are used to elucidate the reaction pathways, as well as ad...
To further understand reactions of fluorocarbons relevant to a number of technological applications,...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
Molecular-level insight into the frictional properties of fluorinated self-assembled monolayers (SAM...
The investigation of adsorption has been a valuable aid in under standing the properties of metal s...
Polymeric perfluoroalkylethers are being considered for use as lubricants in high temperature applic...
Fundamental studies of material surfaces are of continued interest to the development and improvemen...
The formation of self-assembled surface structures based on hydrogen bonding is ones of the most ac...
The chemistry of carbon monoxide and dinitrogen on an atomically stepped Ru(109) and an atomically s...
The authors discuss the role of the presence of dangling H bonds from water or from surface hydroxyl...
We have studied adsorption, desorption, and decomposition of ethers on Ru(001), an atomically-smooth...
We have studied the interactions of water and perfluorodiethyl ether on Ru(100) in order to model th...
Ultra-high vacuum surface techniques are used to determine the effect of substituents (mainly fluori...
BF3 was co-condensed with (C2H5)2O, (CF3CH2)2O and (C2F5)2O in excess argon at 15 K. Infrared spectr...
The AM1 semiempirical quantum chemical method was used to model the interaction of perfluoroethers w...
A variety of surface-sensitive techniques are used to elucidate the reaction pathways, as well as ad...
To further understand reactions of fluorocarbons relevant to a number of technological applications,...
The structure, bonding and chemistry of water and hydroxyl on metal surfaces are presented. Synchrot...
Molecular-level insight into the frictional properties of fluorinated self-assembled monolayers (SAM...
The investigation of adsorption has been a valuable aid in under standing the properties of metal s...
Polymeric perfluoroalkylethers are being considered for use as lubricants in high temperature applic...
Fundamental studies of material surfaces are of continued interest to the development and improvemen...
The formation of self-assembled surface structures based on hydrogen bonding is ones of the most ac...
The chemistry of carbon monoxide and dinitrogen on an atomically stepped Ru(109) and an atomically s...
The authors discuss the role of the presence of dangling H bonds from water or from surface hydroxyl...