People Our automated gene synthesizer promises huge advances
nanotechnology university January 10th, 2009We are exploring several applications of photolithography to the
Our automated gene synthesizer promises huge advances in genomics, such as producing customized genes in matter of hours, constructing siRNA libraries and detecting SNPs.. About Us Our crossdisciplinary center is leader in basic scientific research. Activities Our work in creating patterns at the nanoscale using extreme ultraviolet, electron beam and xray lithography will eventually lead to new processes in the computer chip industry.
About Us LinksActivities Facilities People Job Openings Current Users About UsContact Us Links Center for NanoTechnology merges engineering principles with biological research.
With grounding in several UW departments, we are able to accelerate our research into practical applications, leading to academic and industrial collaborations. Our crossdisciplinary center is leader in basic scientific research. The UW Center for NanoTechnology merges engineering principles with biological research.
Our study of photolithography supports the construction of smaller and smaller circuits, as well as controlled environments for analyzing cell and protein interactions.
Current Users Current Users Our crossdisciplinary center is leader in basic scientific research. Our automated gene synthesizer promises huge advances in genomics, such as producing customized genes in matter of hours, constructing siRNA libraries and detecting SNPs. We are exploring several applications of photolithography to the study of biological processes.
Our automated gene synthesizer promises huge advances in genomics, such as producing customized genes in matter of hours, constructing siRNA libraries and detecting SNPs.
With grounding in several UW departments, we are able to accelerate our research into practical applications, leading to academic and industrial collaborations. Facilities Our study of photolithography supports the construction of smaller and smaller circuits, as well as controlled environments for analyzing cell and protein interactions.
Our study of photolithography supports the construction of smaller and smaller circuits, as well as controlled environments for analyzing cell and protein interactions. Our work in creating patterns at the nanoscale using extreme ultraviolet, electron beam and xray lithography will eventually lead to new processes in the computer chip industry. We are exploring several applications of photolithography to the study of biological processes.
With grounding in several UW departments, we are able to accelerate our research into practical applications, leading to academic and industrial collaborations. Facilities Our automated gene synthesizer promises huge advances in genomics, such as producing customized genes in matter of hours, constructing siRNA libraries and detecting SNPs..
