Novel cell-based and materials science approach to target Glioblastoma brain cancer tumors

submitted by: nsf

Stefan Bossmann and Deryl Troyer at Kansas State University are developing a novel materials treatment method for persons with brain cancer that uses a type of white blood cell to deliver anticancer drugs to particularly virulent brain tumors.

Regenerative Medicine Primer

submitted by: WentzMR
Dr. Andre Terzic, from Mayo Clinic in Rochester, MN, and Director of the enterprise-wide Center for Regenerative Medicine reviews his article appearing in the July 2013 issue of Mayo Clinic Proceedings, regarding the upcoming forum dedicated to regenerative medicine and surgery. Across specialties, the emerging tools, principles, and practices of regenerative medicine are at the core of transforming healthcare. Available at: http://tinyurl.com/ltwjdrj

Nanoparticle-Liquid Crystal Composites

submitted by: icamvid

Nanoparticle-Liquid Crystal Composites by Dr. Torsten Hegmann, Kent State University

Gold Nanoparticles

submitted by: icamvid

Gold Nanoparticles by Dr. Torsten Hegmann, Kent State University

Nanotechnology: Coating Porous Stainless Steel and Glass Slides with Titanium Dioxide Nanoparticles

submitted by: cranberrylab

This video was created by students in the CHE230X/ME230X: Nanobiotechnology Laboratory Experience course at Worcester Polytechnic Institute. In this video, students synthesize titanium dioxide nanoparticles using the sol-gel technique. They then demonstrate how to coat porous stainless steel and glass slides with the nanoparticles. This work was funded in part by the National Science Foundation (EEC 0941746).

Nanotechnology: AFM and SEM Imaging of Titanium Dioxide Nanoparticles

submitted by: cranberrylab

This video was made by students in the CHE230X/ME230X: Nanobiotechnology Laboratory Experience course at Worcester Polytechnic Institute. In this video, students demonstrate AFM and SEM imaging of titanium-dioxide-coated surfaces. This work was funded by the National Science Foundation (EEC 0941746).

Making Most of the Absorbed Photon: New Insights into Carrier Multiplication in Semiconductor Nanostructures

submitted by: RASEIBoulder
Carrier multiplication (CM) or multiexciton generation (MEG) is a process whereby absorption of a single photon produces multiple electron-hole pairs (excitons). CM could benefit a number of solar-energy conversion technologies, most notably photocatalysis and photovoltaics. This presentation overviews recent progress in understanding of the CM process in semiconductor nanocrystals, motivated by an outstanding challenge in this field - the lack of capability to quickly discern between...

Computational Approaches to Nanosafety and Nanomedicine

submitted by: UP Los Baños
2nd Focus Lecture by Dr. Eduardo R. Mendoza, Visiting Scientist, Department of Membrane Chemistry, Max Planck Institute of Biochemistry, Germany and Senior Research Scientist, Faculty of Physics & Center for NanoScience, Ludwig Maximilian University, Munich, Germany. The lecture covered: (1) Understanding nanoparticle-cell interactions for nanosafety and nanomedicine, (2) A basic model of gold nanoparticles-cell interactions, (3) modelling targeted drug delivery with functionalized...

Biological and Environmental Nanotechnology Outreach with Risk-Based Science

submitted by: icamvid

Vicki Colvin speaks at the 2012 "Becoming Engaged" Workshop about the nanotechnology research and public outreach at CBEN.

Science Nation - Silver Saver

submitted by: nsf
Conservation scientist Glen Gates at the Walters Art Museum in Baltimore is working on new ways to protect museum-quality silver from the ravages of time. Fine silverware and silver pieces on display at museums are exposed to air and tarnish just like our silver at home. Every time someone polishes the silver, even under the careful supervision of conservation experts, a little bit of the silver wears away. Gates and colleague, Physics professor Ray Phaneuf at the University of Maryland, are...