Journal
MATERIALS
Volume 14, Issue 14, Pages -Publisher
MDPI
DOI: 10.3390/ma14143911
Keywords
3D printing; conductive carbon materials; polymer composites; functional devices
Categories
Funding
- Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China [2021ZZ119]
- National Natural Science Foundation of China [U1905217]
- Cooperative Project between University and Industry of Fujian Province [2020H6018]
- STS Project of Fujian-CAS [2020T3040]
- Fujian Key Laboratory of Functional Marine Sensing Materials, Minjiang University [MJUKF-FMSM201902]
- Fund of Fujian Provincial Engineering Research Center of Modern Facility Agriculture
- Major Science and Technology Projects in Strategic Emerging Industries of Fuzhou [2019-329-108]
- Open Project Program of Fujian Provincial Key Laboratory of Textiles Inspection Technology (Fujian Fiber Inspection Center) [2020-MXJ-04]
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Carbon material is widely used as a filler to give insulating polymer electrical and thermal conductivity; 3D printing technology simplifies the production process and enables large-scale personalized production.
Carbon material is widely used and has good electrical and thermal conductivity. It is often used as a filler to endow insulating polymer with electrical and thermal conductivity. Three-dimensional printing technology is an advance in modeling and manufacturing technology. From the forming principle, it offers a new production principle of layered manufacturing and layer by layer stacking formation, which fundamentally simplifies the production process and makes large-scale personalized production possible. Conductive carbon materials combined with 3D printing technology have a variety of potential applications, such as multi-shape sensors, wearable devices, supercapacitors, and so on. In this review, carbon black, carbon nanotubes, carbon fiber, graphene, and other common conductive carbon materials are briefly introduced. The working principle, advantages and disadvantages of common 3D printing technology are reviewed. The research situation of 3D printable conductive carbon materials in recent years is further summarized, and the performance characteristics and application prospects of these conductive carbon materials are also discussed. Finally, the potential applications of 3D printable conductive carbon materials are concluded, and the future development direction of 3D printable conductive carbon materials has also been prospected.
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