Search

Research on the Interface Regulation Mechanism of Surface Chemistry and New Materials Development

Author(s)

Chuyi Chen

Affiliation(s)

Changjun High School of Changsha, Changsha, China

Abstract

This paper conducts an in-depth study on the interface regulation mechanism of surface chemistry and the development of new materials. The basic concepts, significance and fundamental role of surface chemistry in materials science were expounded, and the key significance of interface regulation in the improvement of material properties was analyzed in detail. Then, the specific applications of interface regulation mechanisms in the research and development of new materials were discussed from multiple aspects such as crystal growth, synthesis of nanomaterials, and preparation of composite materials, including the regulation principles of interface interaction, energy transfer, and material migration. Through experimental research and theoretical analysis, the influence law of interface regulation on the microstructure and macroscopic properties of materials has been revealed. Finally, the challenges faced in the research of interface regulation mechanisms were summarized, and its future development trends were prospected, aiming to provide theoretical support and practical guidance for the research and development of new materials.

Keywords

Surface Chemistry; New Material Development; Interface Regulation Mechanism; Crystal Growth; Nanomaterials

References

[1] Somorjai, G. A., & Li, Y. (2010). Introduction to surface chemistry and catalysis. John Wiley & Sons. [2] Butt, H. J., Graf, K., & Kappl, M. (2023). Physics and chemistry of interfaces. John Wiley & Sons. [3] Somorjai, G. A., & Li, Y. (2010). Introduction to surface chemistry and catalysis. John Wiley & Sons. [4] Christmann, K. (2013). Introduction to surface physical chemistry (Vol. 1). Springer Science & Business Media. [5] Bikerman, J. J. (2013). Surface chemistry: theory and applications. Elsevier. [6] Somorjai, G. A., & Li, Y. (2011). Impact of surface chemistry. Proceedings of the National Academy of Sciences, 108(3), 917-924. [7] Landolt, D. (2007). Corrosion and surface chemistry of metals. EPFL press. [8] Figueiredo, J. L., & Pereira, M. F. R. (2010). The role of surface chemistry in catalysis with carbons. Catalysis Today, 150(1-2), 2-7. [9] Liu, P., Qin, R., Fu, G., & Zheng, N. (2017). Surface coordination chemistry of metal nanomaterials. Journal of the American Chemical Society, 139(6), 2122-2131. [10] Kuang, Q., Wang, X., Jiang, Z., Xie, Z., & Zheng, L. (2014). High-energy-surface engineered metal oxide micro-and nanocrystallites and their applications. Accounts of chemical research, 47(2), 308-318.