Researchers stacked two-dimensional semiconductors to create a moiré superlattice structure that traps electrons in a repeating pattern, ultimately forming the long-hypothesized Wigner crystal.
Researchers stacked two-dimensional semiconductors to create a moiré superlattice structure that traps electrons in a repeating pattern, ultimately forming the long-hypothesized Wigner crystal.
Mathematical models of cell motion in viscous liquids that show how this motion is affected by the presence of surfactant coating have applications in the design of artificial microswimmers for targeted drug delivery, micro-surgery and other applications.
In the quest for safer and longer-lasting batteries for electric cars, trucks, and planes, researchers explore a new class of materials to suppress the formation of dendrites.
Researchers have developed a special type of cotton face mask that kills up to 99.9999% of bacteria and viruses within 60 minutes of daylight exposure.
For years, physicists have been studying strange phenomena - now they have found an explanation that could help to understand unconventional types of superconductivity.
Researchers grew laser-induced ultra-thick 3D graphene frameworks directly on synthesized polyimide by optimizing the thermal sensitivity of polyimide to increase laser penetration depth.
Researchers have developed a label-free method for identifying respiratory viruses based on changes in electrical current when they pass through silicon nanopores, which may lead to new rapid COVID-19 tests.
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Researchers stacked two-dimensional semiconductors to create a moiré superlattice structure that traps electrons in a repeating pattern, ultimately forming the long-hypothesized Wigner crystal.
Mathematical models of cell motion in viscous liquids that show how this motion is affected by the presence of surfactant coating have applications in the design of artificial microswimmers for targeted drug delivery, micro-surgery and other applications.
In the quest for safer and longer-lasting batteries for electric cars, trucks, and planes, researchers explore a new class of materials to suppress the formation of dendrites.
Researchers have developed a special type of cotton face mask that kills up to 99.9999% of bacteria and viruses within 60 minutes of daylight exposure.
For years, physicists have been studying strange phenomena - now they have found an explanation that could help to understand unconventional types of superconductivity.
Researchers grew laser-induced ultra-thick 3D graphene frameworks directly on synthesized polyimide by optimizing the thermal sensitivity of polyimide to increase laser penetration depth.
Researchers have developed a label-free method for identifying respiratory viruses based on changes in electrical current when they pass through silicon nanopores, which may lead to new rapid COVID-19 tests.
A new and efficient way to create nanographene for power and display devices.