Add to ORKGA method for the reliable attachment of oligonucleotides to silicon (1 0 0) surfaces in patterns is described. UV light exposure of silicon (1 0 0) coated with alkenes functionalized with carboxylic acid groups and derivatives results in covalent attachment to the silicon surface. The carboxyl-terminated (and derivatives) surfaces act as a substrate for the chemistry of the subsequent attachment of oligonucleotides. Illustrated are our results gained for optimisation of the surface attachment chemistry and the characterisation of the surface with scanning electron microscopy, epifluorescence microscopy and ellipsometry. © 2004 Elsevier B.V. All rights reserved
Two photolithographic methods are described for the formation of patterned single or multiple DNA sp...
Hydrogen-terminated Si(111) surfaces are modified by attachment of oligodeoxynucleotides and charact...
There is a large interest in the use of the self-assembling properties of biomolecules in nanotechno...
A method for the reliable attachment of oligonucleotides to silicon (1 0 0) surfaces in patterns is ...
A method for the reliable attachment of oligonucleotides to silicon (1 0 0) surfaces in patterns is ...
A method for the reliable attachment. of oligonucleotides to silicon (10 0) surfaces in patterns is ...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
The covalent attachment of DNA oligonucleotides onto crystalline silicon (100) surfaces, in patterns...
The covalent attachment of DNA oligonucleotides onto crystalline silicon (100) surfaces, in patterns...
The covalent attachment of DNA oligonucleotides onto crystalline silicon (100) surfaces, in patterns...
A procedure is developed to modify silicon surface by organic monolayer films with designed micromet...
Silicon is an ideal substrate for the development of micro and nano bio-molecular sensor devices; th...
Two photolithographic methods are described for the formation of patterned single or multiple DNA sp...
Hydrogen-terminated Si(111) surfaces are modified by attachment of oligodeoxynucleotides and charact...
There is a large interest in the use of the self-assembling properties of biomolecules in nanotechno...
A method for the reliable attachment of oligonucleotides to silicon (1 0 0) surfaces in patterns is ...
A method for the reliable attachment of oligonucleotides to silicon (1 0 0) surfaces in patterns is ...
A method for the reliable attachment. of oligonucleotides to silicon (10 0) surfaces in patterns is ...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
A method is presented for the covalent attachment of oligonucleotides to silicon (100) surfaces patt...
The covalent attachment of DNA oligonucleotides onto crystalline silicon (100) surfaces, in patterns...
The covalent attachment of DNA oligonucleotides onto crystalline silicon (100) surfaces, in patterns...
The covalent attachment of DNA oligonucleotides onto crystalline silicon (100) surfaces, in patterns...
A procedure is developed to modify silicon surface by organic monolayer films with designed micromet...
Silicon is an ideal substrate for the development of micro and nano bio-molecular sensor devices; th...
Two photolithographic methods are described for the formation of patterned single or multiple DNA sp...
Hydrogen-terminated Si(111) surfaces are modified by attachment of oligodeoxynucleotides and charact...
There is a large interest in the use of the self-assembling properties of biomolecules in nanotechno...