Add to ORKGThe present invention relates to a process for modifying or functionalizing oxide surfaces, such as surfaces of SiO2 and A12O3, but also metals including alloys such as stainless steel with alkenes or alkynes under mild conditions by photochemical reaction. The process is very well suited to form patterned modified surfaces which are of use for example in microelectronics, biosensing and catalysis
A very facile reaction between photochemically generated <i>o</i>-naphthoquinone methides (<i>o</i>N...
Many chemical and physical methods, such as plasma, e-beam, sputtering, CVD and others, have been us...
This paper reviews recent studies on the semiconductor photocatalysis based on surface-modified TiO2...
The present invention relates to a process for modifying or functionalizing oxide surfaces, such as ...
Materials interfaces—with a gas, a liquid, or another solid—are highly important for advanced applic...
The functionalization of optically transparent substrates is of importance, for example, in the fiel...
Binding functional molecules to nanostructured mesoporous metal oxide surfaces provides a way to der...
DoctorThis study investigated surface modification of metal oxide semiconductors (TiO2 and WO3) for ...
Summary Encoding chemical information onto surfaces in defined positions is of key importance for a ...
Photochromic materials are available by a postpolymerization surface modification of diverse polymer...
Thermoplastic surface modification is achieved with photocatalysts, such as titanium dioxide, tungst...
Modification and functionalization of substrates can lead to the presence at materials surfaces of m...
The overall goal of this work was to develop methods for the surface modification of particulate mat...
Copper-free “click” chemistry on appropriately modified surfaces and photolithography were explored ...
Many chemical and physical methods, such as plasma, e-beam, sputtering, CVD and others, have been us...
A very facile reaction between photochemically generated <i>o</i>-naphthoquinone methides (<i>o</i>N...
Many chemical and physical methods, such as plasma, e-beam, sputtering, CVD and others, have been us...
This paper reviews recent studies on the semiconductor photocatalysis based on surface-modified TiO2...
The present invention relates to a process for modifying or functionalizing oxide surfaces, such as ...
Materials interfaces—with a gas, a liquid, or another solid—are highly important for advanced applic...
The functionalization of optically transparent substrates is of importance, for example, in the fiel...
Binding functional molecules to nanostructured mesoporous metal oxide surfaces provides a way to der...
DoctorThis study investigated surface modification of metal oxide semiconductors (TiO2 and WO3) for ...
Summary Encoding chemical information onto surfaces in defined positions is of key importance for a ...
Photochromic materials are available by a postpolymerization surface modification of diverse polymer...
Thermoplastic surface modification is achieved with photocatalysts, such as titanium dioxide, tungst...
Modification and functionalization of substrates can lead to the presence at materials surfaces of m...
The overall goal of this work was to develop methods for the surface modification of particulate mat...
Copper-free “click” chemistry on appropriately modified surfaces and photolithography were explored ...
Many chemical and physical methods, such as plasma, e-beam, sputtering, CVD and others, have been us...
A very facile reaction between photochemically generated <i>o</i>-naphthoquinone methides (<i>o</i>N...
Many chemical and physical methods, such as plasma, e-beam, sputtering, CVD and others, have been us...
This paper reviews recent studies on the semiconductor photocatalysis based on surface-modified TiO2...
