Abstract
The combination of multiple nanomaterials has recently become the focus of materials development. This novel material class is known as nanohybrids. Recently, there has been a focus on the conjugation of two or more nanomaterials in order to achieve increased multifunctionality while also enabling for next generation materials with improved performance. The importance of studying novel nanohybrids with their multidimensional and complex behaviour is enormous, and there is a growing interest in their applications. With the increased production and potential use of nanohybrids comes concern about their properties and characteristics, which are responsible for their improved performance in a broader range of applications. Hence, this chapter session provides a comprehensive report on the various types of nanohybrids and their synthesis methods. Their broader applicability was discussed, with a focus on their use in water treatment. Furthermore, this chapter discusses the prospects of nanohybrids in material science.
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Idris, M.O., Ibrahim, M.N.M., Ahmad, A., Alshammari, M.B. (2023). Synthesis and Characterization of Nanohybrid Materials. In: Ahmad, A., Jawaid, M., Mohamad Ibrahim, M.N., Yaqoob, A.A., Alshammari, M.B. (eds) Nanohybrid Materials for Treatment of Textiles Dyes. Smart Nanomaterials Technology. Springer, Singapore. https://doi.org/10.1007/978-981-99-3901-5_4
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