The movement of long chain polymers through nanopores is a key part of many biological processes, including the transport of RNA, DNA, and proteins.
Imec sets major step towards 20nm half pitch interconnects with the realization of electrically functional copper lines embedded into silicon oxide using a spacer-defined double patterning approach.
"We are very...
Bayer Technology Services GmbH (BTS) and the Excellence Cluster for the Engineering of Advanced Materials - Hierarchical Structure Formation for Functional Devices (EAM) at the University of Erlangen-Nürnberg have s...
Micron Technology, Applied Materials, and Ultratech have joined the imec industrial affiliation program (IIAP) on GaN-on-Si technology. This multi-partner R&D program focuses on the development of GaN-on-Si (gallium ...
For many years, Randolf Pohl and his colleagues believed their measuring instrument was not accurate enough: they first performed an experiment to determine the size of the proton back in 2003, but they had not discovered the signal which would provide them with the relevant insight.
Loughborough University is joining forces with five other academic institutions to help enhance understanding of the performance of the materials used in the next generation of nuclear reactors.
Energy security conce...
A state-of-the-art facility was officially opened today by the Minister of Research, Science and Technology Dr. Wayne Mapp.
Scientists from Singapore A*STAR's Institute of Materials Research and Engineering (IMRE), University of Cambridge (UK) and Sungkyunkwan University (South Korea) have created metallic lines so thin and smooth that th...
Since its discovery, graphene—an unusual and versatile substance composed of a single-layer crystal lattice of carbon atoms—has caused much excitement in the scientific community. Now, Nongjian (NJ) Tao, a researcher at the Biodesign Institute at Arizona State University has hit on a new way of making graphene, maximizing the material’s enormous potential, particularly for use in high-speed electronic devices.
Work undertaken in Japan and described in a new application note on the Malvern Panalytical website, examines the influence of particle shape on the characteristics of coating film for battery electrodes. Using the Sysmex Flow Particle Image Analyzer FPIA-3000, available from Malvern Panalytical, researchers at Hokkaido University looked at both the size and shape of graphite particles in coating films produced by different methods.
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