About this Research Topic
The field of advanced carbon materials, including fullerenes, carbon nanotubes, and graphene, has fundamentally transformed modern technology, due to the remarkable physical properties and structural versatility of such materials. Over the past thirty years, advanced carbon materials materials have played important roles in developing new generations of smart electronics, energy storage systems, and robotics.
For instance, graphene (2D Carbon monolith) is often referred to as the "material of the 21st century”, owing to its unique physical properties and versatile structure. Scientists have adopted graphene in various smart applications, including humanoid robotics and smart electronics. Carbon nanotubes are deemed as one of the best candidates for smart sensing electronics owing to their smaller size, morphology, and physical properties. Despite extensive research and notable advancements in application development ranging from humanoid robotics to smart sensing electronics, several challenges and opportunities for deeper exploration remain to be addressed.
This Research Topic aims to gather new ideas and latest advancements in the utilization of advanced carbon materials Robotics and Smart Electronics. This Topic will deepen the understanding of their physical and chemical properties, explore innovative fabrication techniques, and investigate innovative applications in critical areas such as energy storage and smart electronic systems.
We welcome submissions of Original Research, Review, Mini Review, and Perspective articles across the following themes, aiming to explore the dynamics and potential applications of advanced carbon materials in targeted sectors.
o Themes include (but are not limited to):
o Physical Properties of Graphene
o Applications of Carbon Nanotubes in Smart Electronics
o Chemical Properties of Graphene
o Advanced Energy Storage Solutions using Carbon Materials
o Integration of Carbon Materials in Humanoid Robotics
o The Role of Nanotechnology in Advancing Carbon Material Applications
For instance, graphene (2D Carbon monolith) is often referred to as the "material of the 21st century”, owing to its unique physical properties and versatile structure. Scientists have adopted graphene in various smart applications, including humanoid robotics and smart electronics. Carbon nanotubes are deemed as one of the best candidates for smart sensing electronics owing to their smaller size, morphology, and physical properties. Despite extensive research and notable advancements in application development ranging from humanoid robotics to smart sensing electronics, several challenges and opportunities for deeper exploration remain to be addressed.
This Research Topic aims to gather new ideas and latest advancements in the utilization of advanced carbon materials Robotics and Smart Electronics. This Topic will deepen the understanding of their physical and chemical properties, explore innovative fabrication techniques, and investigate innovative applications in critical areas such as energy storage and smart electronic systems.
We welcome submissions of Original Research, Review, Mini Review, and Perspective articles across the following themes, aiming to explore the dynamics and potential applications of advanced carbon materials in targeted sectors.
o Themes include (but are not limited to):
o Physical Properties of Graphene
o Applications of Carbon Nanotubes in Smart Electronics
o Chemical Properties of Graphene
o Advanced Energy Storage Solutions using Carbon Materials
o Integration of Carbon Materials in Humanoid Robotics
o The Role of Nanotechnology in Advancing Carbon Material Applications
Keywords: Graphene, Carbon Nanotubes, Physical Properties, Advanced Carbon Materials, Energy Storage
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
