Researchers have successfully shown that chicken eggwhite (albumen) can be a very effective gate dielectric for two-dimensional materials. This innovation brings to light new possibilities for sustainable and biodegradable technology in the world of optoelectronic devices.
Nov 9th, 2023
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The results open the door to exploring superconductivity and other exotic electronic states in three-dimensional materials.
Nov 9th, 2023
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Researchers have unveiled a first-of-its-kind stable and fully solid-state thermal transistor that uses an electric field to dynamically control heat dissipation, to revolutionize future semiconductor electronics, 3D IC packaging, and chiplet design.
Nov 8th, 2023
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A new four-year grant to develop a simpler, more effective way to accurately determine whether viruses intended for gene therapy contain their full genetic cargo.
Nov 8th, 2023
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Scientists have developed multipurpose, recyclable nanosheets for electronics, energy storage, and health and safety applications.
Nov 8th, 2023
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Extracting and analyzing extracellular vesicles using this new technology has the potential to revolutionize early cancer diagnosis and open the door to personalized medicine.
Nov 8th, 2023
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Microscopes usually use backscattered radiation to create images, but a research group is developing an all-new method to study materials using the faint light they emit, generated by heat.
Nov 7th, 2023
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Neuromorphic architectures hold promise for lower energy consumption processors, enhanced computation, fundamentally different computational modes, native learning and enhanced pattern recognition.
Nov 7th, 2023
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Researchers collaborate to create more environmentally friendly and efficient catalysts with the help of artificial intelligence and machine learning.
Nov 6th, 2023
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The findings could enable engineers to more reliably manufacture next-gen materials by combining different nanocrystals.
Nov 6th, 2023
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A recent review the state of graphene-based human-machine interaction sensor technology to advance research in the field.
Nov 6th, 2023
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Researchers study the quantum mechanical phenomenon known as vacuum fluctuations using a nanoscale hybrid device, which may lead to ultrasensitive quantum sensors or information processors.
Nov 6th, 2023
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Researchers developed a means of performing spatially dense, point spectroscopic measurements with an STM in combination with AI and ML. This approach provides faster and more accurate statistically averaged data that map and identify spectroscopic signatures of heterogeneous surfaces.
Nov 4th, 2023
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Inspired by the enhanced visual system of the Papilio xuthus butterfly, a team of researchers have developed an imaging sensor capable of 'seeing' into the UV range inaccessible to human eyes.
Nov 3rd, 2023
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Raman spectroscopy enhanced by graphene substrates can detect molecules with extremely high sensitivity. New research demonstrates active control of graphene's band structure to optimize chemical enhancement and versatility across diverse analytes.
Nov 3rd, 2023
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In this new pH sensor, fluid samples run through a series of microfluidic channels and over three highly sensitive electrodes made out of light-responsive layered materials and metals.
Nov 3rd, 2023
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