Surface and Interfacial Engineering for Multifunctional Nanocarbon Materials

Multifunctional materials are accelerating the development of soft electronics with integrated capabilities including wearable physical sensing, efficient thermal management, and high-performance electromagnetic interference shielding. With outstanding mechanical, thermal, and electrical properties, nanocarbon materials offer ample opportunities for designing multifunctional devices with broad applications. Surface and interfacial engineering have emerged as an effective approach to modulate interconnected structures, which may have tunable and synergistic effects for the precise control over mechanical, transport, and electromagnetic properties. This review presents a comprehensive summary of recent advances…

• NS
  Natural Science Foundation of Shenzhen City

  Award: GXWD20201231105722002-20200824163747001
• SA
  Science and Technology Foundation of Shenzhen City

  Awards: KQTD20170810141424366, JCYJ20230807114205011
• NN
  National Natural Science Foundation of China

  Awards: 52372096, 22205189, 52102368, 52203103
• ST
  Science, Technology and Innovation Commission of Shenzhen Municipality

  Award: 2020SA001515110905
• BA
  Basic and Applied Basic Research Foundation of Guangdong Province

  Awards: 2022A1515011010, 2024A1515011953, 2021A1515110350