A new study by scientists at Rice University on the growth of graphene in chemical vapor deposition (CVD) furnace paves way to improve the quality of materials’ growth. The study findings have been published in the Proceedings of the National Academy of Sciences journal. Co-author, Boris Yakobson informed that electric current traverses through a pure graphene sheet with virtually no resistance, a quality that makes the nanomaterial a material of choice for electronic applications such as touchscreens.
Research and Markets has included a new report titled ‘Emerging Opportunities for Carbon Nanotube Market Globally: Breakdown by SWCNT, MWCNT, Major Applications & Geography’ to its catalogue.
Researchers from Ruhr-Universität Bochum (RUB) have developed a novel surface-sensitive spectroscopy method that enables atomic level study of interaction between proteins and pharmaceuticals.
Researchers at Purdue University have developed a method for mass production of nanoresonators that can be used for decreasing the congestion in airwaves. These nanoresonators may aid in improving the quality and continuity of cell phone calls and information downloads.
Researchers at the Purdue University have developed a novel "nano machine shop" that can be used for shaping ultrathin films and nanowires.
Veeco Instruments, a provider of advanced thin film process technologies including MOCVD, Ion Beam, and Molecular Beam Epitaxy (MBE) for manufacturers of power electronics, wireless chips, MEMS, hard drives, and LEDs, has announced that it has installed a GEN2000 Edge MBE System at IPG Photonics.
A Biodesign Institute researcher at the Arizona State University, Nongjian Tao has discovered a novel method of measuring the catalytical reactions of single nanoparticles. Effective nanoparticle catalysts are required to carry out many vital functions.
IBN researchers have used a mixture of copper, gold and platinum nanoparticles and designed a long-lasting and powerful fuel cell material. This breakthrough was recently published in a leading journal, Energy and Environmental Science.
Researchers at the Kiel University have developed a new technology that can link two polymers such as Teflon and silicone, which are considered to be “un-joinable”, Passive nano-scaled crystal linkers are employed as staples to link the two “un-joinable materials”.
Light absorbing materials demonstrate poor durability as they frequently degrade or overheat over time. This is one of the reasons that affect the widespread adoption of solar energy. To address these challenges, a research team comprising Dr. Mikhail Zamkov of Bowling Green State University and colleagues has developed a technique to produce two inorganic nanocrystals that demonstrate better durability when compared to organic materials.
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