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Since the discovery and synthesis of penicillin, many other families of ß-lactam antibiotics have been realized and their extensive use worldwide continues to be a forefront line of action against infectious pathogens. Due to their medicinal activity and potential use as synthetic starting materials, studies on beta-lactams have increased.
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Since the discovery and synthesis of penicillin, many other families of ß-lactam antibiotics have been realized and their extensive use worldwide continues to be a forefront line of action against infectious pathogens. Due to their medicinal activity and potential use as synthetic starting materials, studies on beta-lactams have increased.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 424
- Erscheinungstermin: 30. Oktober 2024
- Englisch
- Abmessung: 254mm x 178mm
- ISBN-13: 9780367415242
- ISBN-10: 0367415240
- Artikelnr.: 70601705
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 424
- Erscheinungstermin: 30. Oktober 2024
- Englisch
- Abmessung: 254mm x 178mm
- ISBN-13: 9780367415242
- ISBN-10: 0367415240
- Artikelnr.: 70601705
Dr. Bimal Krishna Banik has a remarkable career, spanning significant achievements in teaching, research, mentoring, and professional service. He completed his Ph. D. degree in Chemistry from the Indian Association for the Cultivation of Science, Calcutta. Then, he pursued postdoctoral research at Case Western Reserve University, Ohio and Stevens Institute of Technology, New Jersey. Dr. Banik was a Tenured Full Professor in Chemistry and First President's Endowed Professor in Science & Engineering at the University of Texas-Pan American. He was the Vice President of Research & Education Development at the Community Health Systems of Texas. Currently, Dr. Banik is a Full Professor at the Prince Mohammad Bin Fahd University, Kingdom of Saudi Arabia. Notably, he has been selected as a Fellow of Five International Scientific Societies and has been designated as a Distinguished Researcher/Distinguished Scientist. Dr. Aparna Das obtained her Ph. D. 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 Universität Göttingen, Germany. Currently, she is working as an Assistant Professor at Prince Mohammad Bin Fahd University, Saudi Arabia.
1. Beta Lactams: Classifications, Biogenesis, Physical Characteristics and
Medicinal Activities. 2. Monocyclic Beta-Lactams: Stereocontrolled
Synthesis by Diverse Methods. 3. Polycyclic Beta Lactams: Synthesis by
Diverse Methods. 4. Polyaromatic Beta Lactams: Synthesis and Anticancer
Activities. 5. Microwave and Ultrasound in Beta-Lactam Chemistry. 6. Solid
Support-Mediated Beta Lactam Synthesis. 7. Mechanism of Beta-Lactam
Synthesis by Cycloaddition Reaction. 8. Beta Lactams as Synthons for
Diverse Heterocycles. 9. Medicinal Activities of Beta Lactams as
Antibacterials and Their Mechanism of Action. 10. Antibacterial effects of
beta-lactam antibiotics with nanoparticles. 11. The Effects of Dipole
Moments on the Biological Activities of Diverse Beta Lactams. 12.
Artificial Intelligence on Beta Lactams Research.
Medicinal Activities. 2. Monocyclic Beta-Lactams: Stereocontrolled
Synthesis by Diverse Methods. 3. Polycyclic Beta Lactams: Synthesis by
Diverse Methods. 4. Polyaromatic Beta Lactams: Synthesis and Anticancer
Activities. 5. Microwave and Ultrasound in Beta-Lactam Chemistry. 6. Solid
Support-Mediated Beta Lactam Synthesis. 7. Mechanism of Beta-Lactam
Synthesis by Cycloaddition Reaction. 8. Beta Lactams as Synthons for
Diverse Heterocycles. 9. Medicinal Activities of Beta Lactams as
Antibacterials and Their Mechanism of Action. 10. Antibacterial effects of
beta-lactam antibiotics with nanoparticles. 11. The Effects of Dipole
Moments on the Biological Activities of Diverse Beta Lactams. 12.
Artificial Intelligence on Beta Lactams Research.
1. Beta Lactams: Classifications, Biogenesis, Physical Characteristics and
Medicinal Activities. 2. Monocyclic Beta-Lactams: Stereocontrolled
Synthesis by Diverse Methods. 3. Polycyclic Beta Lactams: Synthesis by
Diverse Methods. 4. Polyaromatic Beta Lactams: Synthesis and Anticancer
Activities. 5. Microwave and Ultrasound in Beta-Lactam Chemistry. 6. Solid
Support-Mediated Beta Lactam Synthesis. 7. Mechanism of Beta-Lactam
Synthesis by Cycloaddition Reaction. 8. Beta Lactams as Synthons for
Diverse Heterocycles. 9. Medicinal Activities of Beta Lactams as
Antibacterials and Their Mechanism of Action. 10. Antibacterial effects of
beta-lactam antibiotics with nanoparticles. 11. The Effects of Dipole
Moments on the Biological Activities of Diverse Beta Lactams. 12.
Artificial Intelligence on Beta Lactams Research.
Medicinal Activities. 2. Monocyclic Beta-Lactams: Stereocontrolled
Synthesis by Diverse Methods. 3. Polycyclic Beta Lactams: Synthesis by
Diverse Methods. 4. Polyaromatic Beta Lactams: Synthesis and Anticancer
Activities. 5. Microwave and Ultrasound in Beta-Lactam Chemistry. 6. Solid
Support-Mediated Beta Lactam Synthesis. 7. Mechanism of Beta-Lactam
Synthesis by Cycloaddition Reaction. 8. Beta Lactams as Synthons for
Diverse Heterocycles. 9. Medicinal Activities of Beta Lactams as
Antibacterials and Their Mechanism of Action. 10. Antibacterial effects of
beta-lactam antibiotics with nanoparticles. 11. The Effects of Dipole
Moments on the Biological Activities of Diverse Beta Lactams. 12.
Artificial Intelligence on Beta Lactams Research.