The Application and Production of Carbon-based Materials
DOI:
https://doi.org/10.54097/86jezk74Keywords:
Carbon-based materials; Environment; Graphene.Abstract
With the advancement of technology, the field of materials science also flourishing and developing. This article explores the characteristics and properties of carbon-based materials, elaborates on relevant experiments, and provides prospects. Nowadays, many technological powers in the world have taken action, with some cutting-edge carbon-based materials being invented and used in various fields, especially in aerospace. Whenever a new type of carbon-based material is invented, it is a small step in scientific research, but a big step for humanity. The generation of chemical products is based on their own conditions and resource abundance. The excellent characteristics of carbon-based materials and carbon’s high reserves on Earth make them popular chemical materials. Unfortunately, the types of carbon-based materials that humans can currently produce and manufacture are limited. Carbon-based materials, a special chemical material, are closely related to the future of humanity. They comply with the United Nations' initiatives on sustainable development and can also bring huge benefits to users. Additionally, they are one of the indispensable contributors to the human development process.
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[1] Vesel, A. , Zaplotnik, R. , Primc, G. , & Mozeti, M. . (2019). Synthesis of vertically oriented graphene sheets or carbon nanowalls-review and challenges. Materials (Basel, Switzerland), 12(18).
[2] Khan, S. , & Lorenzelli, L. . (2017). Recent advances of conductive nanocomposites in printed and flexible electronics. Smart Material Structures.
[3] Bolotin, K. I. , Sikes, K. J. , Jiang, Z. , Klima, M. , Fudenberg, G. , & Hone, J. , et al. (2008). Ultrahigh electron mobility in suspended graphene. Pergamon(9).
[4] Katin, K. P. , Maslov, M. M. , Krylov, K. S. , & Mur, V. D. . (2020). On the impact of substrate uniform mechanical tension on the graphene electronic structure. Materials, 13(20), 4683.
[5] Safina, L. R. , Krylova, K. A. , Murzaev, R. T. , Baimova, J. A. , & Mulyukov, R. R. . Crumpled graphene-storage media for hydrogen and metal nanoclusters. Materials (Basel, Switzerland), 14(9), 2098.
[6] Palomba, M. , Carotenuto, G. , Longo, A. , Sorrentino, A. , & Coscia, U. . (2019). Thermoresistive properties of graphite platelet films supported by different substrates. Materials, 12(21), 3638-.
[7] Wu, Y. , Li, Y. , Yuan, C. , & Dai, L. . (2020). A facile method for the generation of fe3c nanoparticle and fe-nx active site in carbon matrix to achieve good oxygen reduction reaction electrochemical performances. Materials, 13(21), 1-13.
[8] K. Nazal, M. (2020). An Overview of Carbon-Based Materials for the Removal of Pharmaceutical Active Compounds. IntechOpen. doi: 10.5772/intechopen.91934
[9] Korznikova, E. A. , Rysaeva, L. K. , Savin, A. V. , Soboleva, E. G. , Ekomasov, E. G. , & Ilgamov, M. A. , et al. (2019). Chain model for carbon nanotube bundle under plane strain conditions. Materials, 12(23).
[10] Wang, X. , Duan, P. , Cao, Z. , Liu, C. , Wang, D. , & Peng, Y. , et al. (2019). Homoepitaxy growth of single crystal diamond under 300 torr pressure in the mpcvd system. Materials, 12(23).
[11] Wu, Q. , Sun, C. , Zhu, Z. Z. , Wang, Y. D. , & Zhang, C. Y. . (2021). Effects of boron carbide on coking behavior and chemical structure of high volatile coking coal during carbonization. Materials, 14(2), 302.
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