Add to ORKGOne attractive method for monitoring biomolecular interactions in a highly parallel fashion is the use of microarrays. Microarrays can be applied for screening proteins which makes it an attractive tool in clinical diagnostics, drug discovery studies and basic protein research; even though many methodological challenges and ones relating to the quality control of microarrays still need to be solved. This thesis is based upon seven original papers presenting our effort in the development of new protein microarray chip technology. The development of a novel 3D platform for protein characterization based on porous silicon is reported. The fabrication of the novel porous chips is scaled up and stability of the developed supports as well as the ...
We have fabricated a microarray of porous silicon Bragg reflectors on a crystalline silicon substrat...
A new approach for the preparation of a biochip on porous silicon and the application of the biochip...
International audienceA great challenge in biosensors and diagnosis devices relies on the way to rec...
The present work demonstrates the possibilities of using macroporous silicon as a substrate for high...
Protein microarray technology is of high recent interest, especially for generating confirmatory and...
To facilitate high-throughput biomarker discovery and high-density protein-chip array analyses of co...
Major efforts to develop antibody microarray technology to enable global proteome analysis to be per...
Antibody microarray is a novel technology with great promise within proteomics. Intense work is unde...
To facilitate high-throughput biomarker discovery and high-density protein-chip array analyses of co...
Protein microarrays represent a powerful technology with the potential to serve as tools for the det...
With the success of high-throughput DNA microarrays, protein biochips have been intensively investig...
Fueled by ever-growing genomic information and rapid developments of proteomics–the large scale anal...
Uniformly porous silicon substrate with large surface area(12 mm. 58 mm) was prepared by simple doub...
We have fabricated a microarray of porous silicon Bragg reflectors on a crystalline silicon substrat...
A new approach for the preparation of a biochip on porous silicon and the application of the biochip...
International audienceA great challenge in biosensors and diagnosis devices relies on the way to rec...
The present work demonstrates the possibilities of using macroporous silicon as a substrate for high...
Protein microarray technology is of high recent interest, especially for generating confirmatory and...
To facilitate high-throughput biomarker discovery and high-density protein-chip array analyses of co...
Major efforts to develop antibody microarray technology to enable global proteome analysis to be per...
Antibody microarray is a novel technology with great promise within proteomics. Intense work is unde...
To facilitate high-throughput biomarker discovery and high-density protein-chip array analyses of co...
Protein microarrays represent a powerful technology with the potential to serve as tools for the det...
With the success of high-throughput DNA microarrays, protein biochips have been intensively investig...
Fueled by ever-growing genomic information and rapid developments of proteomics–the large scale anal...
Uniformly porous silicon substrate with large surface area(12 mm. 58 mm) was prepared by simple doub...
We have fabricated a microarray of porous silicon Bragg reflectors on a crystalline silicon substrat...
A new approach for the preparation of a biochip on porous silicon and the application of the biochip...
International audienceA great challenge in biosensors and diagnosis devices relies on the way to rec...