A new technical paper titled “Gate-Tunable Ionothermoelectric Cooling in a Solid-State Nanopore” was published by researchers at the University of Osaka, the University of Tokyo, National Institute of ...

Researchers from the University of Osaka, University of Tokyo, and Japan’s National Institute of Advanced Industrial Science and Technology proposed an ionothermoelectric cooling strategy for chips ...

While there are countless ways to play old video games, endless emulators that eat up ROMs and spew out memories, the hardware offerings from Analogue have elevated the act of retro gaming to an art ...

Metagenomics—the study of all genetic material in a given environment—has become a cornerstone of modern biology, unlocking insights into microbial communities that shape everything from soil health ...

Can you drill a hole in a cube that an identical cube could fall through? Prince Rupert of the Rhine first asked this question in the 17th century, and he soon found out the answer is yes. One can ...

OXFORD, England--(BUSINESS WIRE)--At the American Society of Human Genetics (ASHG) 2025 industry session on 16th October, Oxford Nanopore Technologies will share its latest developments in enabling ...

Nanopore sequencing offers comparable accuracy to short-read NGS for IGH clonotyping in CLL, with advantages in cost and laboratory footprint. The study confirms reliable somatic hypermutation status ...

Wasatch BioLabs (WBL), a Renew Biotechnologies subsidiary, and the largest U.S. sequencing service provider dedicated exclusively to long-read sequencing, today announced the addition of three Oxford ...

Construction robots have been around for a while, automating challenging tasks on job sites. The new kid on this block is called Charlotte, and it's billed as being autonomously capable of building a ...

Oxford Nanopore Technologies shares fell after the U.K. biotech company reiterated its full-year outlook, with analysts at RBC Capital Market saying some investors hoped for a guidance upgrade. Shares ...

Scientists find that complex nanopore signals often come from DNA twisting around itself, not knots, reshaping understanding of genetic material analysis. Scientists believed that when DNA passed ...