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The strain created by growing 2D crystals over 3D objects can be used to tailor the crystals' optoelectronic properties.
Chemists have found a way to improve the speed and durability of smart glass by providing a better understanding of how the glass works at the nanoscale.
Lowering the power of OLEDs
By incorporating liquid metal droplets into an elastomer, researchers have created a highly stretchable, soft, multi-functional composite.
The electronic properties of the 2D semiconductor tungsten disulfide can be dramatically changed by doping it with carbon-hydrogen molecules.
Engineers have developed a high-throughput computational method to design new hybrid organic-inorganic materials for solar cells and LEDs.
Neutron scattering experiments on iron selenide have revealed that its electronic behavior is very similar to other iron-based superconductors.
A novel two-step, ultra-clean process for fabricating a 2D transistor separates the ‘messy’ fabrication steps from the 2D semiconductor layer.
By permanently stressing graphene with a novel laser technique, researchers have been able to provide it with the largest ever band gap.
A nanocomposite that combines polymer nanofibers and boron nitride nanosheets could make a superior dielectric material for flexible electronics.
Inks made from 2D materials like graphene can be coated onto a polyester fabric in a simple dyeing process to produce electronic components.
quasiparticles detected experimentally for the first time
A novel a bowl-shaped electrode catalyst with 'hot edges' can efficiently convert carbon dioxide into carbon-based fuels and chemicals.
Scientists have discovered that applying strain to 2D materials such as doped-graphene could increase their critical superconducting temperature.
Scientists have discovered a new layered ferromagnetic semiconductor, a material that could find use in next-generation electronic technologies.
Now open for Original Research and Review article submission.
By making an ultra-pure version of boron nitride, researchers have been able to provide the first measurements of its predicted high thermal conductivity.
Using supercomputers, researchers are identifying the best combination of cobalt oxides and transition metals for converting heat to electricity.
Calling Early Career Researchers attending ChinaNANO.