Explores the engineering of intrinsic π-electron magnetism in carbon nanostructures, focusing on inducing magnetism in graphene and nanographenes through sublattice imbalance and topological frustration.
Explores the trends and challenges in modeling complex molecular systems using hierarchical multi-scale approaches, covering length-time scales, atomistic simulations, and force matching techniques.
Discusses losses in batteries, fuel cells, and electrolysis, as well as fuel cell electrical efficiency and a comparison between hydrogen and methane fuel cells.
Explores spacecraft electrical power sources, including solar panels, batteries, fuel cells, and radioisotope generators, with examples from past space missions.
Explores electrochemistry, emphasizing redox reactions and cell potential in galvanic cells, Nernst and Faraday's laws, and their applications in electrolysis and fuel cells.
Reviews ultrafast carrier and spin dynamics in 2D semiconductors and their heterostructures, exploring unique optical responses and novel applications.
Explores the principles of batteries and fuel cells, focusing on their operation and components, illustrated using a classic car battery as an example.
