Scanning tunnel microscopy study of rayon-based carbon-fiber surfaces

The effect of surface treatments on carbon fibers has been studied by scanning tunneling microscopy (STM). The results show that over a wide range of oxidation degrees the anodic or electrochemical oxidation does not change the surface aspects, neither at microscopic scale nor at nanometric scale, w

Tips for scanning tunneling microscopy prepared from carbon composite materials were used for nanoscale characterization of highly oriented pyrolytic graphite (HOPG) surfaces, both unmodified and modified with adsorbed monolayers of polyoxometalate. A series of different types of carbon (graphite pe

## Abstract The hydrogen absorption process is studied in carbonaceous fibers produced from a mixture of methane and hydrogen. The absorption of the hydrogen was examined in two types of fibers, in “as‐grown” state and after a process of desorption during an annealing to 1.473 K under vacuum. Later

841 12 STM has been used to study the surface domain and atomic structures of three biomedical carbons: glassy carbon (GC), low-temperature isotropic carbon (LTI), and ultra-low-temperature isotropic carbon (ULTI). The images show atomic lattices on both GC and LTI, but not on ULTI. The lattices con