virtual.MEDICA + virtual.COMPAMED win audiences over with their high degree of international resonance
They provided important stimuli for the healthcare economy and there is keen anticipation for the reunion in Düsseldorf in 2021
For the first time in the history of MEDICA, the world-leading medical trade fair, and the industry’s number one platform for the suppliers of the medical technology industry, COMPAMED, held from 16 to 19 November 2020, took place entirely online due to the pandemic - but still won over their audiences due to their high degree of international resonance in this format too, as virtual.MEDICA and virtual.COMPAMED. Despite a very short registration period, a total of over 1,500 exhibitors took part, hailing from 63 nations. They displayed a huge variety of innovative products, amounting to over 18,300 items, in their online showrooms, and presented live programmes for the healthcare community in over 100 web sessions, which hosted 300 participants at their peak. The community showed avid interest in their droves: Over 45,000 professional visitors (unique users) from 169 nations used the virtual offers and generated 405,000 page impressions. International online visitors to the event made up 78% of the attendees.
Pyrolyzed plastic ash is worthless, but perhaps not for long. Rice University scientists have turned their attention to Joule heating of the material, a byproduct of plastic recycling processes. A strong jolt of energy flashes it into graphene.
Scientists at Japan's Nagoya University and the National Institute for Materials Science have found that a simple one-drop approach is cheaper and faster for tiling functional nanosheets together in a single layer. If the process, described in the journal ACS Nano, can be scaled up, it could advance development of next-generation oxide electronics.
60 years after the discovery of the nickel effect at the MPI for Coal Research, Josep Cornellà's team at the Mülheim Institute has now developed nickel-stilbene complexes that are easy to produce and stable. The components are attracting a great deal of attention from users, and licensing is proceeding extremely successfully.
Researchers from Tokyo Metropolitan University have discovered a way to make self-assembled nanowires of transition metal chalcogenides at scale using chemical vapor deposition. By changing the substrate where the wires form, they can tune how these wires are arranged, from aligned configurations of atomically thin sheets to random networks of bundles.
Researchers from Yokohama National University in Japan have developed a prototype microprocessor using superconductor devices that are about 80 times more energy efficient than the state-of-the-art semiconductor devices found in the microprocessors of today's high-performance computing systems.
Super-fast quantum computers and communication devices could revolutionize countless aspects of our lives – but first, researchers need a fast, efficient source of the entangled pairs of photons such systems use to transmit and manipulate information.
An international research team of the Institut national de la recherche scientifique (INRS) has demonstrated a novel process to modify the structure and properties of graphene, a one atom thick carbon. This chemical reaction, known as photocycloaddition, modifies the bonds between atoms using ultraviolet light.
New computational research makes reliable predictions about desirable properties of new 2D materials, saving experimental researchers time and money and foreshadowing 'tunable' materials for particular applications.
A research team from the National University of Singapore (NUS), led by Assistant Professor Chen Po-Yen, has taken the first step towards improving the safety and precision of industrial robotic arms by developing a new range of nanomaterial strain sensors that are 10 times more sensitive when measuring minute movements, compared to existing technology.
Risk researchers are asking new questions about the health and safety implications and how to mitigate any potential health risks to users of 3D printers and consumers of products manufactured with this emerging technology, especially children.
KAIST researchers have synthesized a collection of nanoparticles, known as carbon dots, capable of emitting multiple wavelengths of light from a single particle. Additionally, the team discovered that the dispersion of the carbon dots, or the interparticle distance between each dot, influences the properties of the light the carbon dots emit.
A stretchable system that can harvest energy from human breathing and motion for use in wearable health-monitoring devices may be possible, according to an international team of researchers, led by Huanyu "Larry" Cheng, Dorothy Quiggle Career Development Professor in Penn State's Department of Engineering Science and Mechanics.
As the COVID-19 pandemic continues to spread across the world, testing remains a key strategy for tracking and containing the virus. Bioengineering graduate student, Maha Alafeef, has co-developed a rapid, ultrasensitive test using a paper-based electrochemical sensor that can detect the presence of the virus in less than five minutes.
Bacterial infections have become one of the biggest health problems worldwide, and a recent study shows that COVID-19 patients have a much greater chance of acquiring secondary bacterial infections, which significantly increases the mortality rate.
A material that mimics human skin in strength, stretchability and sensitivity could be used to collect biological data in real time. Electronic skin, or e-skin, may play an important role in next-generation prosthetics, personalized medicine, soft robotics and artificial intelligence.
Robots so tiny that they can manoeuvre through our blood vessels and deliver medications to certain points in the body - researchers have been pursuing this goal for years. Now, scientists at ETH Zurich have succeeded for the first time in building such "micromachines" out of metal and plastic, in which these two materials are interlocked as closely as links in a chain.
Brandon Medical launches interactive virtual tour and live demonstration platforms of equipment package for operating rooms and critical care areas in order to support hospitals to return to elective...
Edmund Optics®, the premier provider of optical and imaging components, announced today that it has acquired Quality Thin Films, Inc. (QTF). QTF, located outside of Tampa, Florida, offers a wide range...
As you may know, Westlake Chemical Corporation completed the acquisition of NAKAN (IVY GROUP HOLDING) in January 2019. As a result, all NAKAN entities became Westlake companies. Today, we are pleased...
On September 8, 2020, under the guidance of the Organization Department of the Xiamen Municipal Party Committee, the Xiamen Torch High-tech Zone Management Committee, the Municipal High-level Talent...
Nordion is one of the pioneers in using Cobalt-60 for gamma sterilization. The company has been building irradiators and shipping Cobalt sources around the world for more than 50 years and continues...
Springfield, MA – Super Brush LLC. A manufacturing leader in foam swabs and applicators announced today that the company has earned ISO 13485:2016 certification for its quality management system. ISO...