Highlights

Nanotechnology Undergraduate Education- using Nanoscience Instrumentation for Quality Undergraduate Education

Molecular Biomimetics is an emerging multidisciplinary research area in which genetically selected and designed inorganic-binding peptides are utilized as building blocks, i.e., molecular synthesizers, erectors, and assemblers, in forming functional nanomaterials for implementation in technology and medicine.

To create a nationally replicable model of a sustainable and continuously up-gradable hands-on undergraduate teaching laboratory of scanning probe methods, GEMSEC is working with researchers from the UW’s Center for Nanotechnology, educators from North Seattle Community College, representatives from a scanning probe microscopy manufacturer, and a nanotechnology SPM distributor. This partnership, NUE UNIQUE, will inaugurate […]

With a particular focus on engaging and including Native Americans in its entire range of programs, GEMSEC is weaving a fabric of education offerings to seamlessly support and complement its research thrusts. The programs address the needs of multiple audiences; (i) Furthering training of graduate and undergraduate students with interests in biomimetic science through: Annual, […]

Based on the similarity of the sequences of combinatorially selected peptide that have similar binding characteristics, we developed a bioinformatics approach that provides a general and simple methodology to quantitatively categorize a large number of inorganic binding peptides. Furthermore, the approach also provides a way to knowledge-based design a new set of binding sequences specific […]

Chemical Engineering, Materials Science & Engineering, and Microbiology, University of Washington We show that a protein with no intrinsic inorganic synthesis activity can be endowed with the ability to control the formation of inorganic nanostructures under thermodynamically unfavorable (nonequilibrium) conditions, reproducing a key feature of biological hard-tissue growth and assembly. The nonequilibrium synthesis of Cu2O […]

Based on the similarity of the sequences of combinatorially selected peptides that have similar binding characteristics, we developed a bioinformatics approach that provides a general and simple methodology to quantitatively categorize a large number of inorganic binding peptides. The approach also provides a way to knowledge-based design a new set of binding sequences specific to […]