An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels. Furthermore, they have shown that the current can be “switched” on and off, which has potential for developing tiny, energy-efficient transistors—like the light switch in your house but at a nanoscale. Read More | Phys.org news tagged with:graphene Nanophysics Nanomaterials The post Quantum electronics: Charge travels like light in bilayer graphene appeared first on ..read more

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials The post Improving sodium ion batteries with mechanically robust nanocellular graphene appeared first on LOVEgraphene ..read more

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials The post Improving sodium ion batteries with mechanically robust nanocellular graphene appeared first on LOVEgraphene ..read more