MIT researchers, working with scientists from Brigham and Women’s Hospital, have developed a new way to power and communicate with devices implanted deep within the human body. Such devices could be used to deliver drugs, monitor conditions inside the body, or treat disease by stimulating the brain with electricity or light.
Researchers have demonstrated large-scale fabrication of a new type of transparent conductive electrode film based on nanopatterned silver. Smartphone touch screens and flat panel televisions use transparent electrodes to detect touch and to quickly switch the color of each pixel.
Fujifilm acquires Irvine Scientific to maximize their synergy in its significant and growing bio-medical businesses. FujiFilm expects increased demand and needs of biopharmaceutical products and regenerative medicine therapy and is driving current rapid growth of the cell culture media market and estimates continued strong growth in the coming years.
The antibiotic-resistant Acinetobacter baumannii bacterium is one of the most globally harmful bacteria that causes nosocomial infections. Researchers at the University of Turku have discovered that the bacterium attaches to plastic medical devices using tiny finger-like structures. The researchers were able to develop antibodies that prevent the bacterial spread. Infections related to hospitals and medical devices form major healthcare problems worldwide. These infections are associated with the ability of pathogens to colonise both biotic and abiotic surfaces.
“CRISPR” (pronounced “crisper”) stands for Clustered Regularly Interspaced Short Palindromic Repeats, which are the hallmark of a bacterial defense system that forms the basis for CRISPR-Cas9 genome editing technology. In the field of genome engineering, the term “CRISPR” or “CRISPR-Cas9” is often used loosely to refer to the various CRISPR-Cas9 and -CPF1, (and other) systems that can be programmed to target specific stretches of genetic code and to edit DNA at precise locations, as well as for other purposes, such as for new diagnostic tools.
Engineers work on Opportunity (in its cruise configuration) in a cleanroom at Kennedy Space Center. A very important part of planetary protection is keeping contaminants from humans from riding aboard spacecraft. The pictured engineers are donning “bunny suits” that only allow their eyes to be exposed.
Correlation-free measurements will change inline metrology measuring technology fundamentally and permanently and also the world of manufacturing. The robotic cell AICell trace from ZEISS not only enables automotive manufacturers to make measuring and production more efficient, additionally the new product delivers reliable results starting with the very first component.
Micron shares their process for memory chip fabrication in their state-of-the-art nanofab cleanrooms
From laptops to mobile phones to connected cars and homes, memory and storage are helping change how the world works, plays, communicates and connects. Check out this behind the scenes look at Micron’s state of the art fabrication process for how memory chips are made – from initial design all the way through testing and packaging.
Led by Drs Andrij Vasylenko, Samuel Marks, Jeremy Sloan and David Quigley from Warwick’s Department of Physics, in collaboration with the Universities of Cambridge and Birmingham, the researchers have found that the most effective thermoelectric materials can be realised by shaping them into the thinnest possible nanowires.
Chemical-Feasting Bacteria Provide New Key for Water Decontamination. NJIT researchers find “catalyst” behind a rare bacteria’s ability to feed on and remove the contaminant 1,4-dioxane from impacted groundwater and drinking water. Scientists at New Jersey Institute of Technology (NJIT) have uncovered a rare enzyme in bacteria with the ability to degrade the “likely human carcinogen” and water contaminant, 1,4-dioxane.
Plastic nanoparticles – these are tiny pieces of plastic or nanoplastics less than 1 micrometre in size – could potentially contaminate food chains, and ultimately affect human health, according to a recent study by scientists from the National University of Singapore (NUS). They discovered that nanoplastics are easily ingested by marine organisms, and they accumulate in the organisms over time, with a risk of being transferred up the food chain, threatening food safety and posing health risks.
Tacky Mats help to capture impurities and particulate in areas that require dust and particulate control. Tacky mats have a sticky surface which removes dirt and dust from shoe surfaces before they enter a contamination-free area. This adds a layer of protection for the controlled environment or cleanroom environment.
