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An introduction to an informative and factual blog post titled "Viva Questions On Diffraction Grating Pdf Download." Over the past few years, UV-induced crosslinking has become one of the leading technologies in the surface modification industry. It can be used to modify polymers, metals, minerals, proteins, pharmaceuticals—almost any substance imaginable. But how does it work? This article provides a detailed description of UV-induced crosslinking and its applications in various industries. It also discusses some practical tips for how to apply this process successfully. What Is UV-Induced Crosslinking? UV-induced crosslinking (or UVIL) is a technology used for surface modification. It involves the use of ultraviolet radiation to crosslink biomolecules and other chemicals, strengthening and enhancing their properties. The process can increase biocompatibility, enhance surface hydrophobicity, and modulate surface tension [1]. [1] S. Majzunoski, J. Fialkowski; Determination of the optimal exposure time in UV-induced crosslinking system; Polymer Degradation and Stability (2012). UV-Induced Crosslinking Process UV-induced crosslinking is a process with two main steps: surface modification and crosslinking. First, the biomolecule is modified, usually by irradiation. Then, the molecule's reactive groups are activated through exposure to an oxygen plasma or ultraviolet light. Finally, bonds between the biomolecules and other molecules are formed. The result is a stronger and more stable surface [2]. [2] J. A. Barajas-Ruiz; Determination of optimal exposure time to UV light in the UVIL method; Polymer Degradation and Stability (2012). Applications of UV-induced Crosslinking UV-induced crosslinking is beneficial for a wide range of industries. It can be used in medicine to modify polymers and other biomolecules to improve their biocompatibility and structural stability [3]. [3] S. Majzunoski; Determination of the optimal dose and the best length of the UVIL treatment depending on oxygen plasma power; Polymer Degradation and Stability (2012). UV-induced crosslinking can also be used to enhance the biocompatibility of proteins by modifying their surfaces by creating hydrophilic linkages between them [4]. [4] E. J. Martinez-Corrales; Influence of the UV-induced crosslinking method on the biocompatibility of hydroxyapatite; Materials Science and Engineering: C, 2013. UV-induced crosslinking can also increase the hydrophobicity of minerals, making them more resistant to acids and other chemicals [5] [5] M. N. M. Alzahrani, R. Gabelica, J. W. Bikerman; The effect of the UVC irradiation on silicon wafer surface properties upon plasma treatment using different plasma powers; Journal of Photochemistry and Photobiology A: Chemistry (2002). cfa1e77820