'Nanofabrication' trends

Domains containing the tag 'Nanofabrication'

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1eipbn.org EIPBN 2020: ELECTRON, ION, AND PHOTON BEAM TECHNOLOGY AND NANOFABRICATION EIPBN, the "3-Beams", Conference, is the premiere conference on the science and technology of nanopatterning. Traditionally focused on electron, ion, and photon: 31.86 2.80 02:41
2nanotech-jobs.com NanoTech-Jobs - Nanotechnology Jobs Find NanoTech-Jobs - Nanotechnology Jobs, PhD, Post Doc positions in world nanotechnology laboratories and universities. Nano Career.: n/a 1.00 n/a
3pct.edu Pennsylvania College of Technology Pennsylvania College of Technology, Pennsylvania's premier technical college and a Penn State affiliate, provides the best opportunities for education, hands-on s s development, and real-world work experience. Penn College, in Williamsport, PA, offers majors in more than 100 career areas, with a special focus on applied technology. Our bachelor degrees, ociate degrees, and certificates combine hands-on technical experience with education in theory and management practices.: n/a 3.00 n/a
4mems-exchange.org MEMS and Nanotechnology Exchange MEMS and Nanotechnology Exchange: n/a 3.00 n/a
5nanoindian.com NanoIndian.com: Nanotechnology Gateway of India Latest Nanotechnology Research News and ysis by Nanotechnologists featuring Nanoproducts, jobs and nanodirectory: n/a 3.00 n/a
6tinytechjobs.com tinytechjobs. Nanotechnology, microtechnology, MEMS, RF, fuel cell, electrical engineering, chemical engineering, mechanical, engineering, physics, materials science jobs. Find nanotechnology jobs, information on nanotechnology careers and investigate nanotechnology employment at top companies. Also look for technology jobs and microtechnology jobs that require s s in chemical, mechanical and electrical engineering.: n/a 3.00 n/a
7internano.org InterNano - a project of the National Nanomanufacturing Network - Home InterNano is a dynamic information clearinghouse for the nanomanufacturing commmunity., Tufts/MIT Awarded NSF CDI Grant to study Geometric Algorithms for Staged Nanomanufacturing, Integration of CdSe Nanostructures on Graphene Basal Plane by Electrochemical Deposition, Nanomaterial Enabled Conductive Paper: A New Paradigm for Flexible Electronics and Energy Storage, New Imaging Technique Allows Quick Evaluation of Graphene Sheet, Thermochemical Nanolithography Now Allows Multiple Chemicals on a Chip, Wisconsin cast-metals manufacturing benefits from $10 million federal grant, Working Group Makes Important Contribution to EPA’s Scientific Advisory Panel on Nanosilver, Carbon Nanotube Thin Film Transistors—Ready for Prime Time?, Herr and Caprio Round Out Editorial Team, Nanotechnology Enabled Products Fare Well in First ARPA-E Funded Projects, Switchable Nanostructures Made with DNA, $6.5 Million NIST TIP Award For Low-Cost, High-Quality Metallic and Semiconducting SWCNT Inks, Australia Considers Proposal for Nano-Regulatory Reform, ONAMI Fellow Stu s Safety, Toxicology of Nanoparticles, Call for Participation: NanoFab 2010, Controlled Deposition of Microparticle Arrays for LEDs: n/a 3.00 n/a
8nanotechweb.org nanotechweb.org Nanotechnology: n/a 3.00 n/a
9keycoatings.com Engineeering Coatings and Vacuum Technology International FORUM This international Forum serves as a key forum for discussion of leading-edge surface science and engineering research - industrial thin coatings: n/a 0.00 n/a
10nanotech-news.com NanoTechNews -News in Nanoscience and Nanotechnology - ndustry Jobs, Conferences Nanotechnology News News and Jobs in Nanoscience and Nanotechnology. Read or subscribe Nanotechnology News, Events and Jobs at NanoTech-Jobs.com: n/a 0.00 n/a
11coatingsforum.com CoatingsForum.com - PVD and CVD Coatings and Vacuum Technology FORUM This international Forum serves as a key forum for discussion of leading-edge surface science and engineering research and industrial applications: n/a 0.00 n/a
12nanojets.eu NANO-JETS ERC Starting Grant Project This is the website of the NANO-JETS ERC Starting Grant Project coordinated by Prof. Dario Pisignano at the Department of Mathematics and Physics “Ennio De Giorgi” of the University of Salento and at the National Nanotechnology Laboratory of CNR-Nanosciences Institute in Lecce, Italy. The research efforts of the Soft Matter Nanotechnology Group focus on micro- and nanotechnologies applied to soft matter, polymers, fluids and biomolecules through a highly interdisciplinary research program. In our broadest approach, we aim at the elucidation of the basic structural, rheological, fluidic, and optoelectronic properties of soft and plastic materials, the implementation of novel methods for patterning molecules and enhancing their functionality, and the realization and development of devices relying on organic building blocks, and especially polymer nanofibers. Controlling and manipulating organic systems at nanoscale is the key feature of the Converging Sciences Approach, merging organic materials science, advanced lithographies, nanophotonics and electronics, microfluidics, regenerative medicine and biomimesis, for fundamental studies and innovative processes, devices, and applications. The NANO-JETS project ultimately targets the application of polymer nanofibers in new lasers. To this aim, it wants to tackle the still unsolved issues of the electrospinning process in terms of product control by means of the parameters affecting the dynamics of electrified jets. Electrospinning is based on the uniaxial elongation of polymeric jets with sufficient molecular entanglements, in presence of an intense electric field. It is a unique approach to produce nanofibers with high throughput. Notwithstanding almost two decades of research, the process is still largely suboptimal, and the most of nanofibers production is still carried out on an empirical basis. While being operationally simple, electrospinning is in fact complex, and the behavior of electrified jets depends on so many experimental variables making fully predictive approaches still missing. NANO-JETS aims to elucidating and engineering the electrospinning of solutions incorporating active materials, with a tight synergy among modeling, fast-imaging characterization of electrified jets, and process engineering. Once optimized with molecules or nanomaterials exhibiting optical gain, nanofibers will offer an effective, well-controllable and cheap material for building new laser systems. These architectures will enable enhanced miniaturization and portability, and enormously reduced realization costs.: n/a 0.00 n/a