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Microwaves in Chemistry Applications. Fundamentals, Methods and Future Trends. Advances in Green and Sustainable Chemistry

  • Book

  • May 2021
  • Elsevier Science and Technology
  • ID: 5204000

Microwaves in Chemistry Applications: Fundamentals, Methods and Future Trends offers a number of benefits over conventional heating technologies, including acceleration of reaction rates, milder reaction conditions, higher chemical yields, lower energy usage and different reaction selectivity, all of which can improve the sustainability of processes. The book provides valuable insights into the underlying chemistry at play in microwave-assisted processes, introducing fundamental concepts, discussing the modeling of reactions in such processes, and also highlighting a range of key methods and applications of microwaves in chemistry for improved sustainability.

Beginning with an introduction to microwave chemistry, Part One discusses foundational principles, equipment and approaches for modeling reactions and assessing the outputs of those models. Methods in microwave chemistry are then the focus of Part Two, with microwave-assisted synthesis, catalysis, reduction and reactions all explored in detail. Part Three reflects on the practical usage of these methods to address specific issues, covering a number of interesting applications.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

1. Foundational principles of microwave chemistry

2. Microwave equipment for chemistry

3. Modelling and interpreting microwave effects

4. Microwave-assisted synthesis of oxygen and sulphur heterocycles

5. Microwave-assisted synthesis of nitrogen heterocycles

6. Microwave-Assisted Oxidation and Reduction Reactions

7. Microwave-Assisted Enzymatic Reactions

8. Microwave-Assisted Sterilization

9. Microwave-enhanced CVD processes for diamond synthesis

10. Future trends in microwave chemistry and biology

Authors

Aparna Das Assistant Professor, Department of Mathematics and Natural Sciences, Prince Mohammad Bin Fahd University, Kingdom of Saudi Arabia. Aparna Das obtained her PhD degree in Material science/nanophysics from?Joseph Fourier University based upon the?work on "Semiconductor Quantum Dots for Opto-chemical Sensor Application� at French Alternative Energies and Atomic Energy Commission (CEA), France. Her postdoctoral experiences include working as a research scientist at the California Nano Systems Institute and Electric Engineering Department, University of California, Los Angeles (UCLA), USA, and as an experienced researcher at the Nanowiring-Marie Curie Initial Training Network, Georg August Universit�t G�ttingen, Germany. Dr Das's research interests include Computer-assisted Physico-chemical methods, quantum mechanical calculations, interdisciplinary science (Biology, Chemistry, and Physics) for drug development,?computer-aided drug design, microwave applications, photochemical reactions, III-Nitride based chemical sensors, solar cells, optoelectronic devices, synthesis of thin layers and nanostructures including Quantum wells, quantum dots, and nanowires. She is the author of two books and received the young women researcher award, European microscopy society (EMS) outstanding paper awards, and several international fellowships such as the Marie-Curie fellowship, CEA-CNRS research fellowship, and Brain Korea 21 fellowship. Bimal Krishna Banik Vice President of Research and Education Development, Community Health Systems of South Texas, USA. Since being awarded his PhD by the Indian Association for the Cultivation of Science, Calcutta, Professor Banik has held positions as a Postdoctoral Fellow at Case Western Reserve University and Stevens Institute of Technology; Tenured Full Professor in Chemistry and First President's Endowed Professor in Science & Engineering at the University of Texas-Pan American, Edinburg; an Assistant Professor in Molecular Pathology at the University of Texas M. D. Anderson Cancer Center, Houston; and a Research Assistant Professor in Chemistry & Chemical Biology at Stevens Institute of Technology, New Jersey. Since 2014, he has been the Vice President of Research & Education Development of Community Health Systems of South Texas.

Professor Banik has designed, synthesized, and identified novel beta lactams derived from polyaromatic compounds as anticancer agents. He is involved in the asymmetric synthesis, biological evaluation, delivery of compounds to increase the effectiveness and mechanism of actions studies of beta lactams and polyaromatic compounds as anticancer agents.

As the Principal Investigator, Professor Banik has been awarded $7.25 million in grants from the US National Institutes of Health, US National Cancer Institute, and Kleberg Foundation. He has also has more than 315 publications to his name (including peer-reviewed papers and patents, book chapters, books, perspectives, commentaries and reviews) along with approximately 460 presentation abstracts with 6000 citations. He is a reviewer of 93, editorial board member of 28, editor-in-chief of 9, founder of 4, associate editor of 4 and guest editor of 6 research journals. Furthermore, Professor Banik has presided over numerous research sessions at top conferences in the field, including one at the Nobel Prize celebration in Germany.