Nanostructured Carbonaceous Materials from Molecular Precursors

Nanostructured carbonaceous materials, that is, carbon materials with a feature size on the nanometer scale and, in some cases, functionalized surfaces, already play an important role in a wide range of emerging fields, such as the search for novel energy sources, efficient energy storage, sustainable chemical technology, as well as organic electronic materials. Furthermore, such materials might offer solutions to the challenges associated with the on-going depletion of nonrenewable energy resources or climate change, and they may promote further breakthroughs in the field of microelectronics. However, novel methods for their preparation will be required that afford functional carbon materials with controlled surface chemistry, mesoscopic morphology, and microstructure. A highly promising approach for the synthesis of such materials is based on the use of well-defined molecular precursors. © 2010 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

Nanostructured Carbonaceous Materials from Molecular Precursors

Graph Chatbot

Renewable energy integration and waste heat valorization in aluminum remelting for co-producing kerosene and methanol

Advanced control strategies to exploit the hydropower potential enhancing ancillary services provision to the power system

A diversity-driven discovery of potential nanoporous materials for energy-related applications

Renewable energy integration and waste heat valorization in aluminum remelting for co-producing kerosene and methanol

Advanced control strategies to exploit the hydropower potential enhancing ancillary services provision to the power system

A diversity-driven discovery of potential nanoporous materials for energy-related applications