Microwave-assisted wet chemical synthesis: advantages, significance, and steps to industrialization

Abstract: Previous research has revealed several advantages from microwave-assisted wet chemical synthesis in reaction acceleration, yield improvement, enhanced physicochemical properties and the evolvement of new material phases. The study present examples that demonstrate the significance of these advantages to industrial application. In order to achieve successful industrial application there is a need to distinguish between the microwave athermal (not excited by heat) effect from the microwave-induced thermal effect… Show more

“…We transferred the conventional solvothermal synthesis of ZrO2 NCs in benzyl alcohol, described by Garnweitner et al 22,28 , to a microwave-assisted solvothermal synthesis to explore if the same results can be obtained in much shorter reaction times.…”

“…We explored if a microwaveassisted solvothermal treatment for ZrO2 NCs results in NCs with identical properties in terms of diameter and crystallinity, yet at much shorter reaction times, since microwaves directly heat the precursor solution, resulting in faster and more homogenous heating. [26][27][28] In the original benzyl alcohol synthesis, zirconium propoxide was used as a precursor to synthesize cubic ZrO2 NCs. However, it has been shown before that the use of different precursor types can lead to different formation reaction mechanisms.…”

Fast and Tunable Synthesis of ZrO₂ Nanocrystals: Mechanistic Insights into Precursor Dependence

“…We transferred the conventional solvothermal synthesis of ZrO2 NCs in benzyl alcohol, described by Garnweitner et al 22,28 , to a microwave-assisted solvothermal synthesis to explore if the same results can be obtained in much shorter reaction times.…”

“…We explored if a microwaveassisted solvothermal treatment for ZrO2 NCs results in NCs with identical properties in terms of diameter and crystallinity, yet at much shorter reaction times, since microwaves directly heat the precursor solution, resulting in faster and more homogenous heating. [26][27][28] In the original benzyl alcohol synthesis, zirconium propoxide was used as a precursor to synthesize cubic ZrO2 NCs. However, it has been shown before that the use of different precursor types can lead to different formation reaction mechanisms.…”

Fast and Tunable Synthesis of ZrO₂ Nanocrystals: Mechanistic Insights into Precursor Dependence

“…This situation, however, still cannot guarantee successful application of all these technologies to industries. Hence, much effort is needed to obtain a more comprehensive understanding of several physicochemical phenomena related to each of the new technologies hybridizing the conventional hydrothermal synthesis, in order to establish a relationship between science and technology that could lead to optimize these methods for their employment at a industrial scale (Shi & Hwang, 2003).…”

Preparation of Selected Ceramic Compounds by Controlled Crystallization Under Hydrothermal Conditions

“…Microwaves directly couple with the precursor solution, resulting in an efficient energy transfer which leads to shorter reaction times. [12] As an example, TEM images of TiO2, ZrO2 and HfO2 nanoparticles synthesized via microwave methods are shown in Fig. 5.…”

“…This leads to a fast supersaturation, fast crystallization and shorter reaction times in comparison to conventional heating. [8][9][10][11][12][13] The as-synthesized nanoparticles can be stabilized in either polar or non-polar solvents, dependent on the processing requirements. [14] These nanoparticles containing inks can be deposited using ink-jet printing at ambient pressure.…”

Chemical solution deposition of functional ceramic coatings using ink-jet printing