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Graphene nanopores can be controlled: Less costly ways of sequencing DNA

Engineers have used advanced techniques to make the material graphene small enough to read DNA. Shrinking the size of a graphene pore to less than one nanometer opens the possibility of graphene as a...

Research shows graphene nanopores can be controlled

Engineers at the University of Texas at Dallas have used advanced techniques to make the material graphene small enough to read DNA. Shrinking the size of a graphene pore to less than one nanometer, s...

Research gives insight into graphene-metal junctions

The next step in building graphene-based electronic devices requires creating junctions that connect graphene to the external world through at least two metal wires. A two-terminal junction is a graph...

UT Dallas research shows graphene nanopores can be controlled

(University of Texas at Dallas) Engineers at the University of Texas at Dallas have used advanced techniques to make the material graphene small enough to read DNA. Shrinking the size of a graphene po...

Using graphene as a low-cost tool to sequence DNA

by Mike Poller – Engineers at the University of Texas at Dallas have used advanced techniques to make the material graphene small enough to read DNA. In situ studies on the shrinkage and expansi...

Graphene drumheads tuned to make quantum dots

Tightening or relaxing the tension on a drumhead will change the way the drum sounds. The same goes for drumheads made from graphene, only instead of changing the sound, stretching graphene has a prof...

Understanding and controlling the substrate effect on graphene electron-transfer chemistry via reactivity imprint lithography

The chemical modification of graphene is important for its use in many applications. Now it is shown that the reactivity of graphene towards covalent modification varies widely depending on its underl...

Damping pathways of mid-infrared plasmons in graphene nanostructures

Researchers clarify damping pathways for mid-infrared graphene plasmons, including graphene intrinsic optical phonons and edge scattering. They also demonstrate the guiding of mid-infrared graphene pl...

The edges of graphene.

The edge of two dimensional (2D) graphene, as the surface of a three dimensional (3D) crystal, plays a crucial role in the determination of its physical, electronic and chemical properties and thus ha...

Textile electrodes woven by carbon nanotube-graphene hybrid fibers for flexible electrochemical capacitors.

Functional graphene-based fibers are promising as new types of flexible building blocks for the construction of wearable architectures and devices. Unique one-dimensional (1D) carbon nanotubes (CNTs)...

All-graphene core-sheath microfibers for all-solid-state, stretchable fibriform supercapacitors and wearable electronic textiles.

Unique all-graphene core-sheath fibers composed of a graphene fiber core with a sheath of 3D graphene network have been developed. Used as flexible electrodes, all-solid-state fiber supercapacitors ha...

Solution-Processed Graphene/MnO(2) Nanostructured Textiles for High-Performance Electrochemical Capacitors.

Large scale energy storage system with low cost, high power, and long cycle life is crucial for addressing the energy problem when connected with renewable energy production. To realize grid-scale app...

Photoelectrocatalytic decolorization and degradation of textile effluent using ZnO thin films.

Zinc oxide (ZnO) thin films have been successfully deposited onto fluorine doped tin oxide coated glass at substrate temperature of 400°C and used as electrode in photoelectrocatalytic reactor. The u...