Day: November 6, 2025

Chung Ang University. "Porous carbon nanofibers with cobalt atoms boost lithium sulfur battery power." Nanowerk, 6 November 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68055.php. Chung Ang University. (2025, November 6). Porous carbon nanofibers with cobalt atoms boost lithium sulfur battery power. Nanowerk. https://www.nanowerk.com/nanotechnology-news3/newsid=68055.php Chung Ang University, "Porous carbon nanofibers with cobalt atoms boost lithium sulfur...

University of Turku. "New polariton technology could revolutionize thin infrared detectors in various industries." Nanowerk, 6 November 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68056.php. University of Turku. (2025, November 6). New polariton technology could revolutionize thin infrared detectors in various industries. Nanowerk. https://www.nanowerk.com/nanotechnology-news3/newsid=68056.php University of Turku, "New polariton technology could revolutionize thin infrared detectors in...

Yale University. "Making complex nanomaterials with electrified atomic vapor." Nanowerk, 6 November 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68054.php. Yale University. (2025, November 6). Making complex nanomaterials with electrified atomic vapor. Nanowerk. https://www.nanowerk.com/nanotechnology-news3/newsid=68054.php Yale University, "Making complex nanomaterials with electrified atomic vapor," Nanowerk, November 6, 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68054.php.

Kanazawa University. "How water shapes chitin: Study reveals key differences in natural nanomaterials." Nanowerk, 6 November 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68053.php. Kanazawa University. (2025, November 6). How water shapes chitin: Study reveals key differences in natural nanomaterials. Nanowerk. https://www.nanowerk.com/nanotechnology-news3/newsid=68053.php Kanazawa University, "How water shapes chitin: Study reveals key differences in natural nanomaterials," Nanowerk,...

Kanazawa University. "Scanning nanoprobe microscope reveals the hidden flexibility of cancer cells." Nanowerk, 6 November 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68050.php. Kanazawa University. (2025, November 6). Scanning nanoprobe microscope reveals the hidden flexibility of cancer cells. Nanowerk. https://www.nanowerk.com/nanotechnology-news3/newsid=68050.php Kanazawa University, "Scanning nanoprobe microscope reveals the hidden flexibility of cancer cells," Nanowerk, November 6, 2025,...

Nov 06, 2025 A new fabrication method guides liquid gallium beneath graphene after lithography, producing durable superconducting devices that maintain performance through standard chip processing. (Nanowerk Spotlight) Graphene is promoted as a material that could reshape electronics. It is only one atom thick, conducts electricity with very low loss, and...

Nov 06, 2025 A new approach could help a search-and-rescue robot navigate an unpredictable environment by rapidly generating an accurate map of its surroundings. (Nanowerk News) A robot searching for workers trapped in a partially collapsed mine shaft must rapidly generate a map of the scene and identify its location...

National University of Singapore. "Scalable transition metal dichalcogenide memtransistor arrays for energy-efficient artificial neural networks." Nanowerk, 5 November 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68039.php. National University of Singapore. (2025, November 5). Scalable transition metal dichalcogenide memtransistor arrays for energy-efficient artificial neural networks. Nanowerk. https://www.nanowerk.com/nanotechnology-news3/newsid=68039.php National University of Singapore, "Scalable transition metal dichalcogenide memtransistor arrays...

Nov 05, 2025 Light triggers atomic shifts in asymmetric 2D semiconductors, tuning their optical response. This enables compact, energy-efficient photonic chips and sensitive sensors. (Nanowerk News) Rice University researchers studying a class of atom-thin semiconductors known as transition metal dichalcogenides (TMDs) have discovered that light can trigger a physical shift...

Technical University of Munich. "Researchers reveal surprising growth of destructive dendrites in electrolytes." Nanowerk, 5 November 2025, https://www.nanowerk.com/nanotechnology-news3/newsid=68041.php. Technical University of Munich. (2025, November 5). Researchers reveal surprising growth of destructive dendrites in electrolytes. Nanowerk. https://www.nanowerk.com/nanotechnology-news3/newsid=68041.php Technical University of Munich, "Researchers reveal surprising growth of destructive dendrites in electrolytes," Nanowerk,...