By combining different allotropic forms of carbon at the nanoscale it is possible to fabricate
tailor made surfaces with unique properties. These novel materials have shown high …

Most significant optical, mechanical, thermal, electronic, and chemical properties of carbon
nanomaterials assist to fabricate the best electrochemical sensors with enhanced …

We present a quantitatively accurate machine-learning (ML) model for the computational
prediction of core–electron binding energies, from which X-ray photoelectron spectroscopy …

Carbonaceous materials, especially tetrahedral amorphous carbon (ta-C), can form complex
functionalized surface structures and are thus promising candidates for applications in …

A synergic electrochemical process between cathodic electro-Fenton and anodic oxidation
was proposed for efficient degradation of perfluorooctanoic acid (PFOA) in this work. The …

We present an accurate approach to compute X-ray photoelectron spectra based on the GW
Green's function method that overcomes the shortcomings of common density functional …

Systematic atomistic studies of surface reactivity for amorphous materials have not been
possible in the past because of the complexity of these materials and the lack of the …

Benefiting from its surface-rich functional groups, eco-friendliness, impressive
electrochemical properties, excellent light absorption, structural tunability at the …

Tetrahedral amorphous carbon (ta-C) is widely used for coatings because of its superior
mechanical properties and has been suggested as an electrode material for detecting …

Carbonaceous nanomaterials can be a game changing materials in many technological
fields, especially in electroanalytical applications. However, there is no consensus on the …