-
Nov 7, 2024 | 
phys.org | Amy Walden
When it comes to electrically conductive nanomaterials, graphene—stronger and lighter than steel and more conductive than copper—has been shown to be an excellent choice for a wide range of technologies.
-
Nov 7, 2024 | 
news.fsu.edu | Amy Walden |Bill Wellock
When it comes to electrically conductive nanomaterials, graphene — stronger and lighter than steel and more conductive than copper — has been shown to be an excellent choice for a wide range of technologies. Physicists are working to learn more about this impressive form of naturally occurring elemental carbon, which is composed of a single flat layer of carbon atoms arranged in a repeating hexagonal lattice.
-
Nov 1, 2024 | 
techbeyondinfinity.com | Amy Walden |Edan Schultz
By: , | Published: | 5:06 pm | SHARE: A class of materials called the platinum group elements play a critcal role in countless applications, spanning fields from cancer research to clean energy. But these elements are among the most rare and expensive elements on Earth, which limits their application and use.
-
Oct 31, 2024 | 
newswise.com | Amy Walden |Edan Schultz
By: Amy Walden , Edan Schultz | Published: October 31, 2024 | 5:06 pm | SHARE: A class of materials called the platinum group elements play a critcal role in countless applications, spanning fields from cancer research to clean energy. But these elements are among the most rare and expensive elements on Earth, which limits their application and use.
-
Oct 31, 2024 | 
news.fsu.edu | Amy Walden |Edan Schultz |Bill Wellock
A class of materials called the platinum group elements play a critcal role in countless applications, spanning fields from cancer research to clean energy. But these elements are among the most rare and expensive elements on Earth, which limits their application and use.
-
Oct 25, 2024 | 
news.fsu.edu | Amy Walden |Logan Lowery
A faculty member from Florida State University’s Department of English has been selected to receive the prestigious Louisiana Writer Award, presented by the Louisiana Center for the Book in the State Library of Louisiana. Robert O. Lawton Distinguished Professor David Kirby is the 25th recipient of the award, which recognizes contemporary Louisiana authors who have made outstanding contributions to that state’s literary and intellectual life through their body of work.
-
Aug 2, 2024 | 
newsbreak.com | Amy Walden
The leading platform for local news and information. By using cutting-edge technology that learns users’ preferences to curate tailored content for them, NewsBreak gathers community-focused news and information from over 10,000 sources in a timely, accessible, and easy-to-use way at no cost to users. NewsBreak does not allow any content that expresses hate or promotes false information. Instead, we strive to give businesses, communities, and users accurate and reliable local news and information.
-
Aug 2, 2024 | 
scitechdaily.com | Amy Walden
A diagram of the Kagome metal cesium vanadium antimonide showing plasmon waves moving through the material. Credit: Guangxin NiA study focused on cesium vanadium antimonide, a Kagome metal, has shown its potential in enhancing nano-optics by generating unique plasmon polaritons. These findings could advance optical communication and sensing technologies.
-
Jul 30, 2024 | 
phys.org | Amy Walden
In traditional Japanese basket-weaving, the ancient "Kagome" design seen in many handcrafted creations is characterized by a symmetrical pattern of interlaced triangles with shared corners. In quantum physics, the Kagome name has been borrowed by scientists to describe a class of materials with an atomic structure closely resembling this distinctive lattice pattern.
-
Jul 30, 2024 | 
news.fsu.edu | Amy Walden |Bill Wellock
In traditional Japanese basket-weaving, the ancient “Kagome” design seen in many handcrafted creations is characterized by a symmetrical pattern of interlaced triangles with shared corners. In quantum physics, the Kagome name has been borrowed by scientists to describe a class of materials with an atomic structure closely resembling this distinctive lattice pattern.
