#solidstatephysics — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #solidstatephysics, aggregated by home.social.
-
A novel methodology for deterministically moving tens of thousands of individual atoms within the three-dimensional crystalline lattice of a solid material at room temperature.
#MaterialScience #QuantumScience #Nanotechnology #SolidStatePhysics #sflorg
https://www.sflorg.com/2026/05/ms05132601.html -
A novel methodology for deterministically moving tens of thousands of individual atoms within the three-dimensional crystalline lattice of a solid material at room temperature.
#MaterialScience #QuantumScience #Nanotechnology #SolidStatePhysics #sflorg
https://www.sflorg.com/2026/05/ms05132601.html -
A novel methodology for deterministically moving tens of thousands of individual atoms within the three-dimensional crystalline lattice of a solid material at room temperature.
#MaterialScience #QuantumScience #Nanotechnology #SolidStatePhysics #sflorg
https://www.sflorg.com/2026/05/ms05132601.html -
A novel methodology for deterministically moving tens of thousands of individual atoms within the three-dimensional crystalline lattice of a solid material at room temperature.
#MaterialScience #QuantumScience #Nanotechnology #SolidStatePhysics #sflorg
https://www.sflorg.com/2026/05/ms05132601.html -
A novel methodology for deterministically moving tens of thousands of individual atoms within the three-dimensional crystalline lattice of a solid material at room temperature.
#MaterialScience #QuantumScience #Nanotechnology #SolidStatePhysics #sflorg
https://www.sflorg.com/2026/05/ms05132601.html -
Researchers have developed the first universal model to accurately explain and predict energy level alignment at the interfaces between electrodes, hole-collecting monolayers (HCMs), and #perovskite layers in solar cells. This framework establishes physical guidelines for designing efficient, durable perovskite solar cells without relying heavily on trial and error.
#MaterialsScience #Photovoltaics #SolidStatePhysics #PhysicalChemistry #sflorg
https://www.sflorg.com/2026/04/ms04302601.html -
Researchers have developed the first universal model to accurately explain and predict energy level alignment at the interfaces between electrodes, hole-collecting monolayers (HCMs), and #perovskite layers in solar cells. This framework establishes physical guidelines for designing efficient, durable perovskite solar cells without relying heavily on trial and error.
#MaterialsScience #Photovoltaics #SolidStatePhysics #PhysicalChemistry #sflorg
https://www.sflorg.com/2026/04/ms04302601.html -
Researchers have developed the first universal model to accurately explain and predict energy level alignment at the interfaces between electrodes, hole-collecting monolayers (HCMs), and #perovskite layers in solar cells. This framework establishes physical guidelines for designing efficient, durable perovskite solar cells without relying heavily on trial and error.
#MaterialsScience #Photovoltaics #SolidStatePhysics #PhysicalChemistry #sflorg
https://www.sflorg.com/2026/04/ms04302601.html -
Researchers have developed the first universal model to accurately explain and predict energy level alignment at the interfaces between electrodes, hole-collecting monolayers (HCMs), and #perovskite layers in solar cells. This framework establishes physical guidelines for designing efficient, durable perovskite solar cells without relying heavily on trial and error.
#MaterialsScience #Photovoltaics #SolidStatePhysics #PhysicalChemistry #sflorg
https://www.sflorg.com/2026/04/ms04302601.html -
Researchers have developed the first universal model to accurately explain and predict energy level alignment at the interfaces between electrodes, hole-collecting monolayers (HCMs), and #perovskite layers in solar cells. This framework establishes physical guidelines for designing efficient, durable perovskite solar cells without relying heavily on trial and error.
#MaterialsScience #Photovoltaics #SolidStatePhysics #PhysicalChemistry #sflorg
https://www.sflorg.com/2026/04/ms04302601.html -
Scientists synthesized and characterized a single molecule with a half-Möbius electronic topology, representing the first experimental observation of electrons traveling through a structure in a previously unknown corkscrew-like pattern.
#ComputationalChemistry #QuantumScience #SolidStatePhysics #Physics #MolecularScience #sflorg
https://www.sflorg.com/2026/03/phy03052601.html -
Scientists synthesized and characterized a single molecule with a half-Möbius electronic topology, representing the first experimental observation of electrons traveling through a structure in a previously unknown corkscrew-like pattern.
#ComputationalChemistry #QuantumScience #SolidStatePhysics #Physics #MolecularScience #sflorg
https://www.sflorg.com/2026/03/phy03052601.html -
Scientists synthesized and characterized a single molecule with a half-Möbius electronic topology, representing the first experimental observation of electrons traveling through a structure in a previously unknown corkscrew-like pattern.
#ComputationalChemistry #QuantumScience #SolidStatePhysics #Physics #MolecularScience #sflorg
https://www.sflorg.com/2026/03/phy03052601.html -
Scientists synthesized and characterized a single molecule with a half-Möbius electronic topology, representing the first experimental observation of electrons traveling through a structure in a previously unknown corkscrew-like pattern.
#ComputationalChemistry #QuantumScience #SolidStatePhysics #Physics #MolecularScience #sflorg
https://www.sflorg.com/2026/03/phy03052601.html -
Scientists synthesized and characterized a single molecule with a half-Möbius electronic topology, representing the first experimental observation of electrons traveling through a structure in a previously unknown corkscrew-like pattern.
#ComputationalChemistry #QuantumScience #SolidStatePhysics #Physics #MolecularScience #sflorg
https://www.sflorg.com/2026/03/phy03052601.html -
A recently identified magnetic phase where neighboring #electron spins point in opposite directions but possess non-equivalent spatial arrangements, allowing for unique magnetic behaviors previously misattributed to exotic #superconductivity
#Physics #CondensedMatterPhysics #SolidStatePhysics #QuantumMechanics #sflorg
https://www.sflorg.com/2026/02/phy02032601.html -
Contributor: Want the next breakthrough? Don’t starve the science that makes it possible https://www.byteseu.com/1424260/ #breakthrough #caltech #DefenseSystem #discovery #future #LabEquipment #question #Research #Science #SolidStatePhysics #time #today #transistor #university #Work
-
#Youtube just showed this #advertisement to me, and as someone with a doctorate in #SolidStatePhysics, I cannot help but be angry. About the name, that is.
They stole the fancy-sounding buzzword that we solid state physicists use instead of the boring-sounding "magneto-electronics" when we try to convince funding agencies to give us research money...That aside, the game looks pretty cool though.
-
A new claim for a room temperature superconductor was made. Best to wait and see if this claim is valid.
"While the announcement has been greeted with enthusiasm by some scientists, others are far more cautious, pointing to the research group’s controversial history of alleged research malfeasance."
#Research #Superconductivity #RoomTemperatureSuperconductor #Materials #Science #SolidStatePhysics #Physics
-
Interesting article on the 2019 IEEE Medal of Honor winner, Kurt Petersen, who became an accidental evangelist for MEMS (microelectromechanical systems) after seeing a stain on a lab floor.
#MicroElectroMechanicalSystems #MEMS #Engineering #Technology #Research #Silicon #Sensors #SolidStatePhysics