Researchers have found a simple way to eliminate almost all sequencing errors produced by a widely used portable DNA sequencer, potentially enabling scientists working outside the…
Posts published in “Biomedical Engineering”
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2D arrangement of 44,400 light stopwatches enables scan-less fluorescence lifetime imaging. Credit: Tokushima University Comb of a Lifetime: A New Method for Fluorescence Microscopy Fluorescence…
Researchers at the University of Tokyo have found a way to enhance the sensitivity of existing quantitative phase imaging so that all structures inside living…
A team of international researchers, led by Huanyu “Larry” Cheng, Dorothy Quiggle Career Development Professor in Penn State’s Department of Engineering Science and Mechanics, has…
A smartphone-read ultrasensitive and quantitative saliva test for COVID-19. Offering an ultrasensitive yet accessible approach to COVID-19 testing, a portable saliva-based smartphone platform provides results…
A demonstration of how the T-ray equipment can be used to scan an individual’s skin. Credit: University of Warwick Terahertz radiation, or T-rays, can reveal…
Schematic representation of the integrated host-virus metabolic modelling approach used in the article. The biomass composition of SARS-CoV-2 is estimated based on genomic and structural…
City of San José Environmental Services Department’s environmental inspectors Isaac Tam and Laila Mufty deploy an autosampler into a manhole at the San José –…
A team of Johns Hopkins University researchers has developed a new software that could revolutionize how DNA is sequenced, making it far faster and less…
The open-source 3D-printed cube can host self-designed inserts, electrical and optical components. The resulting modules can be combined to form complex optical instruments. This allows…
Seokheun “Sean” Choi, an associate professor of electrical and computer engineering, has developed a new device for faster testing of antibiotic-resistant bacteria. Credit: Seokheun “Sean”…
Credit: Imperial College London The chip, developed at Imperial College London and known as TriSilix, is a ‘micro laboratory’ which performs a miniature version of…
KAUST researchers have developed a durable “electronic skin” that can mimic natural functions of human skin, such as sensing temperature and touch. Credit: © 2020…
A 3D bioprinted heart model developed by Adam Feinberg and his team. Credit: Carnegie Mellon University College of Engineering Professor of Biomedical Engineering Adam Feinberg…
The reptile millirobot changes from caterpillar motion to concertina motion after reprogramming. Credit: City University of Hong Kong An easy way to make millirobots by…
This image shows cells adhering to a titanium alloy created by cold-spray 3D printing, which demonstrates the material’s biocompatibility. Credit: Cornell University Forget glue, screws,…
A person wears an “electronic skin” device on the wrist. Credit: Chuanqian Shi Researchers at the University of Colorado Boulder are developing a wearable electronic…
Scientists of the University of Malaga are working in a new system based on photonic sensors could enable early detection of SARS-CoV-2. Credit: University of…
With a novel layer to help the metallic components of the sensor bond, an international team of researchers printed sensors directly on human skin. Credit:…
Illustration of a prospective biocompatible interface shows that hydrogels (green tubing), which can be generated by an electron or X-ray beam 3D-printing process, act as…