Embodiments of the present disclosure relate to a process for making a carbanogel buckypaper product. Such carbanogel buckypaper product may be imparted with enhanced properties as compared to other buckypaper products. In some embodiments of the present disclosure, the carbanogel can be generated by an electrolysis process that can transform a carbon-containing gas into a carbon nanomaterial.

Embodiments of the present disclosure relate to a process for making a carbanogel buckypaper product. Such carbanogel buckypaper product may be imparted with enhanced properties as compared to other buckypaper products. In some embodiments of the present disclosure, the carbanogel can be generated by an electrolysis process that can transform a carbon-containing gas into a carbon nanomaterial.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and an oxygen powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include oxygen doped nanospheres.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and an oxygen powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include oxygen doped nanospheres.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and a nitrogen powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include nitrogen doped nanospheres.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and a nitrogen powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include nitrogen doped nanospheres.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and a bromine powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include bromine doped nanospheres.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and a bromine powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include bromine doped nanospheres.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and a silicon powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include silicon doped nanospheres.

The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture and a silicon powder. The gas mixture may include a carbon-based gas, an oxygen gas, and a hydrogen gas. The carbon-based nanomaterial composition may include silicon doped nanospheres.