Sunday, November 18, 2018
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replacement implant

No Chance for Bacteria on Implants

Hip and dental implant operations are routine. But not entirely risk-free. They may result in infection that is difficult to control with oral or...
3D printing

New Technology Will Enable Metal Parts Manufacturing Through 3D Printing

Just as it is already possible to manufacture a wide range of polymer-based (plastic) objects using 3D printing or additive manufacturing (AD), it will...
3D metal structures

Gold ‘Micro Jewels’ from the 3D Printer

Thanks to a laser technique that ejects ultra-tiny droplets of metal, it is now possible to print 3D metal structures, not only simple ‘piles’...
metal-organic framework

Novel Material Could Make Plastic Manufacturing More Energy-Efficient

An innovative filtering material may soon reduce the environmental cost of manufacturing plastic. Created by a team including scientists at the National Institute of...
Renewable Electricity

New Material, Manufacturing Use Sun’s Heat for Cheaper Renewable Electricity

A Purdue University-led team that included researchers from Georgia Tech have developed a new material and manufacturing process that would make one way to...
cheaper renewable electricityvideo

New Material, Manufacturing Process Use Sun’s Heat for Cheaper Renewable Electricity

Solar power accounts for less than 2 percent of U.S. electricity but could make up more than that if the cost of electricity generation and energy...
Flu Vaccine

Near-Infrared Spectroscopy Could Improve Flu Vaccine Manufacturing

Recent research from North Carolina State University outlines how near-infrared (NIR) spectroscopy could be used to make cell-culture-based flu vaccine manufacturing faster and more...
microfluidic technology

Microfluidic Molecular Exchanger Helps Control Therapeutic Cell Manufacturing

Using microfluidic technology to advance the preparation of samples from the chemically complex bioreactor environment, the researchers have harnessed electrospray ionization mass spectrometry (ESI-MS)...
wastewater treatment, Earthquake Defences, food waste, plastic pollution, Breast Cancer, renewable resources, energy self-sufficient, cancer, Infectious Disease in Dogs, Printed Solar Cell, chronic diseases, Radical Aircraft Engine, Infrared Sensor, Mummifying, bacterial and viral infection, steel waste gases, Hydrogen-Powered Mobility, Gene cluster identification, Equipment Waste, plant cells, biodegradable materials, climate change, biomedical devices, Stretchable Smart Sensor, brain cells, interstitium, Mediterranean diet, Bat DNA, graphene, global warming, infectious disease, INTEGRA , cancer, Huntington, man flu, black hole, Carbon dioxide, genes, Alzheimer, Brain-computer interfaces, graphene, immune system, topology, climate change, Twin Embryos, blue brain, climate change, human genome, mature B cell neoplasia, artificial iris, autonomous robot, chemotherapy, tidal energy, Nanomedicine, ecosystem, Mycotoxins, obesity, methylisation, deep drilling, brain scans, volcanic gas, biocatalyst enzymes, earthquakes, detectors, robotics, asthma sufferers, infrastructure, olive trees, solar energy, satellites, olive oil, robotic arms, zika virus, locked-in state, digital detox, climate change, climate, stroke, The new production method was developed by engineers at the University of Exeter. It consists in creating entire device arrays directly on the copper substrates used for the commercial production of graphene, after which complete and fully-functional devices can be transferred to a substrate of choice. This process has been demonstrated by producing a flexible and completely transparent graphene oxide-based humidity sensor. Not only does this device outperform currently-available commercial sensors, but it’s also cheap and easy to produce using common wafer-scale or roll-to-roll manufacturing techniques. ‘The conventional way of producing devices using graphene can be time-consuming, intricate and expensive and involves many process steps including graphene growth, film transfer, lithographic patterning and metal contact deposition,’ explains Prof David Wright from Exeter's Engineering department. ‘Our new approach is much simpler and has the very real potential to open up the use of cheap-to-produce graphene devices for a host of important applications from gas and bio-medical sensors to touch-screen displays.’ One of team’s main objectives was to increase the range of surfaces that graphene devices can be put on. Whilst the demonstrated humidity sensor was integrated in a plasdinosaur, dieting, coral, dengue epidemics, vaccines, thermal energy, artificial intelligence, Cloudlightning, Memristors, Sensory Tool, HIV, autonomous robot, offshore renewable energy, Wearable robots, processors, Artificial, climate, plasmons, Antarctica’s ice, cryogenic preservation

Printed Solar Cell Set to Transform Electronics Manufacturing

The emerging field of organic electronics is already altering the way we use technology. From light emitting diode displays used in televisions, computers and...
graphene watch

Science Behind World’s Lightest Graphene Watch Revealed

In January 2017 the world’s lightest mechanical chronograph watch was unveiled in Geneva, Switzerland, showcasing innovative composite development by using graphene. Now the research behind the...
perovskite solar cells

Oxford PV Leads Consortium to Prepare Perovskite Solar Cells for High...

Oxford PVTM – The Perovskite CompanyTM, the leader in the field of perovskite solar cells, today announced a new consortium to further demonstrate the manufacturability...
nanoparticle

Connecting the (Nano) Dots: NIST Says Big-Picture Thinking Can Advance Nanoparticle...

Nanoparticle manufacturing, the production of material units less than 100 nanometers in size (100,000 times smaller than a marble), is proving the adage that...
Biologic Drugs

New Cell Lines Produce NIST Monoclonal Antibody for Improved Manufacturing of...

When the National Institute of Standards and Technology(NIST) issued the world’s first standardized monoclonal antibody (mAb) in July 2016, the exhaustively analyzed protein known as NISTmAb(NIST Reference...
batteries

3D Printing the Next Generation of Batteries

Additive manufacturing, otherwise known as 3D printing, can be used to manufacture porous electrodes for lithium-ion batteries—but because of the nature of the manufacturing...
predictive toolkit

New Predictive Tool to Improve Human – Machine Interactions in Digital...

As manufacturing shifts towards smart factories, with interconnected production systems and automation, engineers at the University of Nottingham are leading a £1.9m project to...
Kinematics

New Kinematics for Milling – Customized, High-Precision Manufacturing

Manufacturers generally must offer high-quality products at low prices in order to remain competitive. Three Fraunhofer Institutes are therefore working on the next generation...
Manufacturing process

Changing the Grocery Game: Manufacturing Process Provides Low-Cost, Sustainable Option for...

Purdue Universityresearchers have developed a large-scale manufacturing process that may change the way some grocery store foods are packaged. According to Credence Research, food packaging...
Superstrong Al alloys

Superstrong Al Alloys May Change Manufacturing Processes for Automobiles, Aerospace Devices

Purdue Universityresearchers have developed a superstrong material that may change some manufacturing processes for the aerospace and automobile industries. The Purdue team, led by Xinghang Zhang,...
Disease Therapies

New Cell Manufacturing Research Facility will Change Approaches to Disease Therapies

The vision of making affordable, high-quality cell-based therapies available to hundreds of thousands of patients worldwide moved closer to reality June 6 with the...
nuclear battery

Prototype Nuclear Battery Packs 10 Times More Power

Russian researchers from the Moscow Institute of Physics and Technology (MIPT), the Technological Institute for Superhard and Novel Carbon Materials (TISNCM), and the National University of...