Looking deeper into graphene using rainbow scattering
Graphene is a two-dimensional wonder material that has been suggested for a wide range of applications in energy, technology, construction, and more since it was first isolated from graphite in 2004......»»
The Southern Ocean upwelling is a mecca for whales and tuna that"s worth celebrating and protecting
The Great Southern Australian Coastal Upwelling System is an upward current of water over vast distances along Australia's southern coast. It brings nutrients from deeper waters to the surface. This nutrient-rich water supports a rich ecosystem that.....»»
Scientists reveal role of neighboring adsorbates and quantum tunneling in surface diffusion of hydrogen atoms
A research group led by Prof. Yang Yong from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has revealed the role of neighboring adsorbate and quantum tunneling in the diffusion of hydrogen on a graphene surface, which op.....»»
"A Different Man" review: Sebastian Stan leads a stunning, self-reflexive drama on representation
Aaron Schimberg's follow-up to 'Chained for Life' delves even deeper into on-screen facial difference. A film that's as much about its own gimmick as what that gimmick represents, Aaron Schimberg's A Different Man casts Sebastian Stan as Edwar.....»»
Benefits messaging boosts consumer plant purchasing
A deeper understanding of the relationship between plant benefits, consumer perceptions, and demographic differences is important when shaping marketing strategies for communicating the benefits of plants. In the ornamental plant industry, plant bene.....»»
A lightweight fish pen to move farms to deeper seas
The University of Queensland has co-led a project to design a cost effective yet robust pen to expand fish farming into deeper ocean areas to help feed the growing global population. The research is published in the Journal of Marine Science and Engi.....»»
Lessons from the pandemic: The trouble with working from home
Remember when COVID-19 hit, and suddenly everyone was working from home? Well, a team of researchers in Montreal and Paris decided to dig deeper into how this shift affected office workers during the pandemic......»»
Electrons become fractions of themselves in graphene, study finds
The electron is the basic unit of electricity, as it carries a single negative charge. This is what we're taught in high school physics, and it is overwhelmingly the case in most materials in nature......»»
Research team introduces new non-toxic method for producing high-quality graphene oxide
Researchers from Umeå University in Sweden have found a new way to synthesize graphene oxide, which has significantly fewer defects compared to materials produced by the most common method. Similarly good graphene oxide could be synthesized previous.....»»
This mini decentralized VPN and firewall hardware is just $229
Save on the Deeper Connect Mini Decentralized VPN and Firewall Hardware, now only $229. TL;DR: As of February 15, get the Deeper Connect Mini Decentralized VPN and Firewall Hardware for just $229.With so much of our lives online these days, you.....»»
Leak suggests Android and ChromeOS to receive deeper device integration
Google's ecosystem would allow Android phones and Chromebooks to share Wi-Fi connections without passwords......»»
What did the electron "say" to the phonon in the graphene sandwich?
A TU/e and Catalan Institute of Nanoscience and Nanotechnology-led collaboration involving researchers from around the world has the answer, and the why, and the results have been published in the journal Science Advances......»»
Revolutionizing next-generation VR and MR displays with a novel pancake optics system
Augmented reality (AR), virtual reality (VR) and mixed reality (MR) have expanded perceptual horizons and ushered in deeper human-digital interactions that transcend the confines of traditional flat panel displays......»»
Ultra-sensitive lead detector could significantly improve water quality monitoring
Engineers at the University of California San Diego have developed an ultra-sensitive sensor made with graphene that can detect extraordinarily low concentrations of lead ions in water. The device achieves a record limit of detection of lead down to.....»»
Mathematicians finally solved Feynman’s “reverse sprinkler” problem
We might not need to "unwater" our lawns, but results could help control fluid flows. Light-scattering microparticles reveal the flow pattern for the reverse (sucking) mode of a sprinkler, showing vortices and complex f.....»»
Consulting firms provide low-quality research on crucial water policies: It shows we have a deeper problem
Management consulting revenue in Australia has grown from less than A$33 billion in 2010 to more than $47 billion in 2023. The increasing use of consultants, as well as the PwC scandal, highlights serious issues with vested interests, integrity and t.....»»
"Flawed" material resolves superconductor conundrum
Christopher Parzyck had done everything right. Parzyck, a postdoctoral researcher, had brought his nickelate samples—a newly discovered family of superconductors—to a synchrotron beamline for X-ray scattering experiments. He was measuring his sam.....»»
Tales of Kenzera: Zau finds deeper meaning in the Metroidvania formula
We went hands on with Tales of Kenzera: Zau and discovered a detailed Metroidvania where every design decision is thematically motivated......»»
Structural color ink: Printable, non-iridescent and lightweight
A new way of creating color uses the scattering of light of specific wavelengths around tiny, almost perfectly round silicon crystals. This Kobe University development enables non-fading structural colors that do not depend on the viewing angle and c.....»»
Researchers develop new model to predict surface atom scattering
A group of Cornell-led researchers in the Center for Bright Beams has developed a new theoretical approach to calculate how atoms scatter from surfaces. The method, developed by recently conferred Cornell physics Ph.D. Michelle Kelley and her collabo.....»»
An efficient numerical program for studying light scattering at the nanoscale
When light encounters a particle, it interacts with the particle instead of just passing through smoothly. The light waves can get scattered in different directions because of the light-matter interactions......»»