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nc-AFM images of an F4TCNQ 2D island on graphene/BN. ACS Nano, Article ASAP DOI: 10.1021/acsnano.5b05322 Courtesy ACS

nc-AFM images of an F4TCNQ 2D island on graphene/BN. ACS Nano, Article ASAP DOI: 10.1021/acsnano.5b05322 Courtesy ACS

Graphene technology opens up new horizons for treatment of disease | Innovative graphene technology to buffer the activity of synapses | the study showed how effective graphene oxide flakes are at interfering with excitatory synapses, an effect that could prove useful in new treatments for diseases like epilepsy. | SISSA and University of Trieste

Graphene technology opens up new horizons for treatment of disease | Innovative graphene technology to buffer the activity of synapses | the study showed how effective graphene oxide flakes are at interfering with excitatory synapses, an effect that could prove useful in new treatments for diseases like epilepsy. | SISSA and University of Trieste

Physicists show unlimited heat conduction in graphene Scientists at the Max Planck Institute for Polymer Research (MPI-P) in Mainz and the National University of Singapore have attested that the thermal conductivity of graphene diverges with the size of the samples. This discovery challenges the fundamental laws of heat conduction for extended materials.

Physicists show unlimited heat conduction in graphene Scientists at the Max Planck Institute for Polymer Research (MPI-P) in Mainz and the National University of Singapore have attested that the thermal conductivity of graphene diverges with the size of the samples. This discovery challenges the fundamental laws of heat conduction for extended materials.

The use of polysulfide containing electrolyte to build protective SEI layer on Li metal anode

The use of polysulfide containing electrolyte to build protective SEI layer on Li metal anode

New Electron Microscopy Method Sculpts 3-D Structures at Atomic Level. ORNL researchers used a new scanning transmission electron microscopy technique to sculpt 3-D nanoscale features in a complex oxide material. CREDIT Department of Energy's Oak Ridge National Laboratory

New Electron Microscopy Method Sculpts 3-D Structures at Atomic Level. ORNL researchers used a new scanning transmission electron microscopy technique to sculpt 3-D nanoscale features in a complex oxide material. CREDIT Department of Energy's Oak Ridge National Laboratory

esearchers developed a method to build diamond-based hybrid nanoparticles in large quantities from the ground up, thereby circumventing many of the problems with current methods.

esearchers developed a method to build diamond-based hybrid nanoparticles in large quantities from the ground up, thereby circumventing many of the problems with current methods.