This Special Issue on “Inorganic Syntheses Assisted by Microwave Heating” represents one of the few fully dedicated issues on inorganic microwave synthesis published by any international scientific journal and it features five papers and one review article. [...
Microwave chemistry has an edge over conventional heating methods for conducting chemical reactions,...
In the Conventional laboratory or industry heating technique involve Bunsen burner, heating mental/h...
The use of microwaves to perform inorganic synthesis allows the direct transfer of electromagnetic e...
This Special Issue on “Inorganic Syntheses Assisted by Microwave Heating” represents one of the few ...
Microwave synthesis is the major breakthrough in the synthetic organic chemistry where as the conven...
Microwave irradiation provides an alternative to the conventional methods, for heating or introducin...
The synthesis of complex functional inorganic materials, such as oxides, can be successfully perform...
The synthesis of complex functional inorganic materials, such as oxides, can be successfully perform...
The synthesis of complex functional inorganic materials, such as oxides, can be successfully perform...
Microwave Assisted Synthesis is rapidly becoming the method of choice in modern synthesis and discov...
Microwave chemistry has an edge over conventional heating methods for conducting chemical reactions,...
Use of microwaves in the synthesis of materials is gaining importance. Microwave-assisted synthesis ...
Microwave-assisted synthesis is considered environmental-friendly and, therefore, in agreement with ...
Microwave-assisted synthesis is considered environmental-friendly and, therefore, in agreement with ...
Microwave-assisted synthesis is considered environmental-friendly and, therefore, in agreement with ...
Microwave chemistry has an edge over conventional heating methods for conducting chemical reactions,...
In the Conventional laboratory or industry heating technique involve Bunsen burner, heating mental/h...
The use of microwaves to perform inorganic synthesis allows the direct transfer of electromagnetic e...
This Special Issue on “Inorganic Syntheses Assisted by Microwave Heating” represents one of the few ...
Microwave synthesis is the major breakthrough in the synthetic organic chemistry where as the conven...
Microwave irradiation provides an alternative to the conventional methods, for heating or introducin...
The synthesis of complex functional inorganic materials, such as oxides, can be successfully perform...
The synthesis of complex functional inorganic materials, such as oxides, can be successfully perform...
The synthesis of complex functional inorganic materials, such as oxides, can be successfully perform...
Microwave Assisted Synthesis is rapidly becoming the method of choice in modern synthesis and discov...
Microwave chemistry has an edge over conventional heating methods for conducting chemical reactions,...
Use of microwaves in the synthesis of materials is gaining importance. Microwave-assisted synthesis ...
Microwave-assisted synthesis is considered environmental-friendly and, therefore, in agreement with ...
Microwave-assisted synthesis is considered environmental-friendly and, therefore, in agreement with ...
Microwave-assisted synthesis is considered environmental-friendly and, therefore, in agreement with ...
Microwave chemistry has an edge over conventional heating methods for conducting chemical reactions,...
In the Conventional laboratory or industry heating technique involve Bunsen burner, heating mental/h...
The use of microwaves to perform inorganic synthesis allows the direct transfer of electromagnetic e...
DOI
Add to ORKG