Science and Enterprise

Tag: nanotechnology

  • Student Designs Simple Water Filter, Seeks Crowdfunding

    24 July 2014. An engineering student at ETH Zurich, a science and technology university in Switzerland, designed a simple, inexpensive water filter to bring drinking water to developing countries that lack reliable clean water sources. Jeremy Nussbaumer developed the DrinkPure filter while an undergraduate at ETH Zurich, and now has a crowdfunding campaign on Indiegogo…

  • Dust Mite Allergy Vaccine Developed, Animal Tested

    23 July 2014. Researchers at University of Iowa in Iowa City developed a vaccine, which in lab mice generates antibodies that protect against dust mite allergens. The team led by Iowa pharmacy professor Aliasger Salem published its findings in this month’s issue of AAPS Journal. Dust mites are microscopic-sized insects, related to ticks and spiders,…

  • Chip Device Developed to Quickly Test for Type 1 Diabetes

    14 July 2014. Medical researchers at Stanford University in California invented a small, handheld microchip that more quickly and easily tests for type 1 diabetes than current methods. The team led by Stanford pediatric endocrinologist Brian Feldman published its results online yesterday in the journal Nature Medicine (paid subscription required). They are also starting a…

  • Nanotech Technique Devised for Real-Time Intestinal Images

    7 July 2014. Biomedical engineers from University at Buffalo in New York developed a non-invasive technique making it possible to capture live images to diagnose and care for diseases of the small intestine. The team led by Buffalo professor Jonathan Lovell — with colleagues from Buffalo and universities in Wisconsin, Canada, and Korea — published…

  • Univ at Buffalo Starting Advanced Materials Research Center

    1 July 2014. University at Buffalo in New York is establishing a new materials research department that aims to accelerate the process of bringing advanced materials to market. Buffalo’s Materials Design and Innovation department is a joint project of the university’s engineering and Arts and Science schools, and funded in part by donation of $1.5…

  • Epoxy/Carbon Ink 3-D Printed into Lightweight Cell Material

    26 June 2014. Engineers at Harvard University developed an ink made of epoxy resins and carbon fibers, which when arrayed into a cellular pattern with three-dimensional printing, can produce a strong lightweight composite with the properties of balsa wood. Materials scientist and engineering professor Jennifer Lewis and postdoctoral researcher Brett Compton, now at Oak Ridge…

  • Challenge Seeks Development Partner for Nanotech Biosensor

    20 June 2014. A new challenge on InnoCentive calls for a medical technology company or institute to develop a new type of nanoscale biosensor for diagnostic and therapeutic applications. The challenge has no immediate financial award, but winners of the competition will earn the right to negotiate a compensated collaboration contract with the Cleveland Clinic,…

  • Industrial Scale Graphene Production Process Devised

    23 May 2014. Engineers at University of Michigan, Massachusetts Institute of Technology, and glass manufacturer Guardian Industries developed a process for producing graphene that overcomes many of the obstacles preventing industrial-scale production of this material. The findings of a research team led by MIT’s John Hart and Guardian’s Vijayen Veerasamy appear online today in the…

  • MERS Vaccine Candidate Produces Immune Response in Lab Test

    30 April 2014. Researchers at the biotechnology company Novavax Inc. in Gaithersburg, Maryland and University of Maryland medical school in Baltimore found new vaccines made from engineered protein nanoparticles generated in lab mice an immune response to the Middle East Respiratory Syndrome (MERS) and severe acute respiratory syndrome (SARS) viruses. The team led by Maryland…

  • Microparticle Solution Devised to Identify Genuine Goods

    14 April 2014. Engineers at Massachusetts Institute of Technology and the affiliated Lincoln Laboratory developed a process for adding minute particles into materials that can be encoded and sensed by inexpensive readers to detect counterfeit goods from the originals. The team from the lab of chemical engineering professor Patrick Doyle published its findings yesterday online…