Carbon Materials

  title={Carbon Materials},
  author={D. D. L. Chung},
  • D. Chung
  • Published 3 January 2019
  • Materials Science

A Novel Bond Anchor for Unidirectional FRP Member: Conceptual Design and Experimental Investigation

Fiber-reinforced polymer (FRP) is an advanced composite material with many advantages including light weight, high strength, and high fatigue and corrosion resistance, which makes unidirectional FRP

Optimization of physical activation process for activated carbon preparation from water caltrop husk

In the work, water caltrop husk (WCH), locally agricultural residue generated in large quantities, was evaluated as a potential precursor for preparing mesoporous activated carbon (AC) by physical

Attapulgite as a skeleton for the fabrication of magnetic structural-functional materials with a superhydrophobic shell

Fabrication of structural-functional materials endowed with unique features from attapulgite, and which may be provided a well structural platform for diversified applications, such as adsorbent for

Physical and chemical activation mechanisms of carbon materials based on the microdomain model

Activation mechanisms of carbon materials are proposed. Physical activation proceeds via removal of the carbon surface. Chemical activation produces highly porous carbon and enhances the

Engineering Organization of DNA Nano-Chambers through Dimensionally Controlled and Multi-Sequence Encoded Differentiated Bonds.

A facile strategy for creating a DNA nano-chamber (DNC), a hollow cuboid nano-object, whose bonds can be fully prescribed and complexly encoded along its three orthogonal axes, giving rise to addressable and differentiated bonds is reported.

Disparate Exciton-Phonon Couplings for Zone-Center and Boundary Phonons in Solid-State Graphite.

The exciton-phonon coupling in highly oriented pyrolytic graphite is studied using resonant inelastic x-ray scattering (RIXS) spectroscopy. With ∼70  meV energy resolution, multiple low energy