All posts by Nanotechnology 2020

About Nanotechnology 2020

Program Director of nanotechnology 2020 Herald Meetings LLC Mail: nanotech@heraldmeetings.org Whatsapp: +1 609-540-7643

Only 38 days left to attend Nanotechnology conference

Participants from the top-notch universities, government and private industry labs of various disciplines to take part in Nanotechnology 2020 to distinguish new innovation patterns, improvement devices, item openings, R&D coordinated efforts, and commercialization accomplices. It is a tremendous occasion for understudies to meet and talk about with lead specialists. The gathering gives an uncommon chance to find advancement in the territory of nanotechnology and new business openings. It is among the most significant occasions regarding global administrative approaches and it is available to the investment of privately owned businesses. The meeting covers all topics in Nanotechnology Nanomaterial’s. The meeting incorporates Plenary, Keynote and welcomed talks by prominent identities from around the globe notwithstanding contributed papers both oral and notice introductions. 

IMPORTANT DATES
Final Second Round for Abstract Submission=January 28, 2020
Final Second Round for  Registration=January 30, 2020

Biggest carbon-nanotube chip yet says ‘Hello, World!’

Scientists have created the largest computer chip yet to be made from carbon nanotubes: rolled up sheets of atom-thick graphene that conduct electricity at super-fast speeds.

Some researchers hope to use carbon nanotubes in future computers because they conduct electricity faster and more efficiently than silicon does. Until now, engineers have increased the power and speed of ordinary silicon computer processors by shrinking the switches known as transistors, but these are reaching a fundamental limit.

Custom-made chemical factories

Make your prescence at Nanotechnology conference
Scientists have recently reengineered a building block of a nanocompartment that occurs naturally in bacteria, greatly expanding the potential of nanocompartments to serve as custom-made chemical factories. Researchers hope to tailor this new use to produce high-value chemical products, such as medicines, on demand
The sturdy nanocompartments are formed by hundreds of copies of just three different types of proteins. Their natural counterparts, known as bacterial microcompartments, encase a wide variety of enzymes that carry out highly specialized chemistry in bacteria.

Aging response on the stress corrosion cracking behavior of wrought precipitation-hardened magnesium alloy

Constant immersion testing and slow strain rate testing (SSRT) are conducted on wrought magnesium alloy in a 3.5 wt% NaCl solution. After solution annealing (SA) at 525 °C for 8 h, the alloy was isothermally aged at 210 °C for 15 h, 48 h, and 144 h to obtain underaged (UA), peak-aged (PA), and overaged (OA) microstructures, respectively. After 32 days of constant exposure in chloride solution, the SA and UA samples showed the lowest (~ 0.10 mg cm−2 day−1) and the highest (~ 0.20 mg cm−2 day−1) weight loss, respectively. SSRT was carried out at an initial strain rate of 10−6 s−1 in air and 3.5 wt% NaCl solution to investigate stress corrosion cracking (SCC) susceptibility. SCC susceptibility index was in the order PA > UA > SA > OA. Intergranular failure morphology on the fractured surface after SSRT in chloride solution can be attributed to micro-galvanic activity between grain boundary second phase and adjacent regions. Comparison of electrochemical measurements in unstressed and stressed conditions indicated two orders of magnitude difference in electrochemical resistance of the alloy.