TY - BOOK ID - 136523848 TI - Synthesis and Application of Nano- and Microdispersed Systems AU - Kuznetsov, Denis AU - Burmistrov, Igor AU - Karunakaran, Gopalu AU - Muratov, Dmitry S. AU - Andrey, Yudin PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - sorption KW - heavy metals KW - radioactive metals KW - potassium titanate KW - ion exchange KW - natural rubber KW - maleated natural rubber KW - maleic anhydride KW - Halloysite Nanotubes KW - silver nanodecahedron KW - SERS KW - photochemical synthesis KW - LEDs KW - spark plasma sintering KW - nanomodification KW - mechanical processing KW - densification KW - mechanical properties KW - low-carbon steels of the ferritic class KW - nanoscale phase precipitates KW - strength characteristics KW - steel composition KW - hot rolling KW - structure KW - 5-hydroxymethylfurfural KW - 2,5-diformylfuran KW - TiO2 KW - electrochemical synthesis KW - pulse alternating current KW - CVD process KW - doping KW - single-crystal diamond KW - boron KW - triethyl borate KW - thin films KW - boron-doped diamond KW - polymer composite KW - sorbent KW - wastewater KW - polyvinyl butyral KW - potassium polytitanate KW - direct ethanol fuel cell KW - platinum-based catalyst KW - electrocatalysis KW - nanoparticles KW - platinum catalyst KW - synthesis method KW - polyol process KW - electrochemical dispersion KW - alternating current KW - ethanol electrooxidation KW - fuel cell KW - carbon quantum dots KW - polarization fluorescent analysis KW - fluorescence properties KW - copper cation KW - water samples KW - n/a UR - https://www.unicat.be/uniCat?func=search&query=sysid:136523848 AB - Nano- and microdispersed systems can be defined as dispersions of the nano- and microparticles (droplets, bubbles) of one material within a continuous phase of another material (gas, liquid, solid). Such systems are very widespread in nature. The most common examples include soils, aerosols, minerals, and various natural colloids. Nano- and microdispersed systems are also the subject of active research and represent a techno-economic sector with full expansion in many application domains. Nano- and microdispersed systems have gained prominence in technological advancements due to their diverse physicochemical and mechanical properties, including wettability, dispersion stability, electrical and thermal conductivity, and catalytic activity, resulting in enhanced performance over their counterparts with a particle size above 1 µm. Such systems are of interest to various research areas, including the development of new polymers and ceramic composites, sensors, biomaterials, energy conversion devices, wastewater treatment strategies, and many other applications. The present Special Issue of Processes will include recent enhancements in the synthesis and application of various types of nano- and microdispersed systems and will help to expand scientific cooperation in this important field of research. ER -