Advances in Separation Sciences
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Advances in Separation Sciences
Sustainable Processes and Technologies
Mustansar Hussain, Chaudhery; Ingole, Pravin G
Elsevier - Health Sciences Division
12/2024
500
Mole
Inglês
9780323952927
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Part one: Separation Sciences: Sustainable Perspectives & Developments
1. Theory and mechanism of various separation processes
2. Separation science in the modern era
3. Novelty in the development of separation processes
Part two: Processes and Mechanisms of Separation Sciences
4. 21st century: Role of separation sciences
5. Large scale production separation process
6. Implementation of separation processes in medicinal field
Part three: Advances in Sample Preparation Techniques
7. Recent advances in sample preparation in chromatographic techniques
8. Modern sample preparation methods in separation science
9. Advances in sample preparation and analytical techniques for pharmaceutically active compounds
Part four: Advances in Chromatography
10. Recent developments in chromatography for pharmaceutical analysis
11. Chromatography for gas-liquid-solid in separation sciences
12. Chromatography a sustainable analysis technique in separation science
Part five: Advances in Membrane Technology
13. Advances of membrane technology in heavy metal ions separation
14. Advances of membrane technology in gas separation
15. Advances of membrane technology in enantiomer separation
16. Advances of membrane technology in waste water treatment
17. Advances of membrane technology in water desalination
Part six: Advances in Microfluidics
18. Advances in microfluidics for biomedical engineering applications
19. Recent advances in microfluidics and environmental analysis
20. Advances in microfluidics in infectious diseases
21. Advances in microfluidic skills for cell-to-cell interaction studies
Part seven: Green and Sustainable Separation Sciences
22. Green and sustainable separation of natural products
23. Green solvents for sustainable separation technologies
24. Green and sustainable processes for environmental and chemical engineering
25. Green extraction and, separation processes
Part eight: Challenges and Commercialization
26. Challenges in separation processes
27. Separation process commercialization
28. Conclusions
1. Theory and mechanism of various separation processes
2. Separation science in the modern era
3. Novelty in the development of separation processes
Part two: Processes and Mechanisms of Separation Sciences
4. 21st century: Role of separation sciences
5. Large scale production separation process
6. Implementation of separation processes in medicinal field
Part three: Advances in Sample Preparation Techniques
7. Recent advances in sample preparation in chromatographic techniques
8. Modern sample preparation methods in separation science
9. Advances in sample preparation and analytical techniques for pharmaceutically active compounds
Part four: Advances in Chromatography
10. Recent developments in chromatography for pharmaceutical analysis
11. Chromatography for gas-liquid-solid in separation sciences
12. Chromatography a sustainable analysis technique in separation science
Part five: Advances in Membrane Technology
13. Advances of membrane technology in heavy metal ions separation
14. Advances of membrane technology in gas separation
15. Advances of membrane technology in enantiomer separation
16. Advances of membrane technology in waste water treatment
17. Advances of membrane technology in water desalination
Part six: Advances in Microfluidics
18. Advances in microfluidics for biomedical engineering applications
19. Recent advances in microfluidics and environmental analysis
20. Advances in microfluidics in infectious diseases
21. Advances in microfluidic skills for cell-to-cell interaction studies
Part seven: Green and Sustainable Separation Sciences
22. Green and sustainable separation of natural products
23. Green solvents for sustainable separation technologies
24. Green and sustainable processes for environmental and chemical engineering
25. Green extraction and, separation processes
Part eight: Challenges and Commercialization
26. Challenges in separation processes
27. Separation process commercialization
28. Conclusions
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printing; 4D printing; API; Absorption; Adsorption; Advanced materials; Agro-waste recovery; Air monitoring; Air/water purification; Applications of polymeric membranes in gas separation; Automation; BTPhen; BTzP; Bio-based solvents; Bioactive agents; Biomass waste; Biomedical engineering; Biopharmaceutical nanoparticle formulations; Ceramic- and polymer-based membranes; Challenges and future perspectives; Chiral membranes; Chromatography; Classification; Complexing ligands; Cryopreservation; Crystallization; Data science; Desalination; Detection; Disease modeling; Distillation; Droplet flow; Drugs; Drying; Dye rejection; Effect separation processes; Electrophoresis; Enantioseparation membranes; Environmental analysis; Environmental management; Equilibrium; ExtendedSample preparation; Extraction; Filtration; Gas chromatography; Gas separation; Gas-liquid-solid chromatography; Graphene oxide; Green and sustainable separation; Green assessment tools; Green chemistry; Green extraction; Green separation; Green solvent; Green solvents; HPLC; HPLC-MS; HPTLC-MS; Healthcare; Healthcare and diagnostics; Heavy metal ion separation; Infectious diseases; Ionic liquid; LC/MS; Lab-on-a-chip; Lanthanide-actinide separation; Large-scale separation; Liquid; Liquid chromatography; Liquid extraction; MMMs; MOF composite; MOF-based MMMs; MOFs; Mass transfer coefficient; Material science; Materials used in polymeric membranes; Medicinal plants; Membrane; Membrane fabrication techniques; Membrane filtration; Membrane processes; Membrane science; Membrane separation; Membrane technologies; Membrane technology; Membrane types; Membranes; Metal-organic framework; Microextraction techniques; Microfluidic; Microfluidics; Microfluidics application; Microorganism monitoring; Miniaturization; Mixed-matrix membrane; Mixed-matrix membranes; Molecularly imprinted membranes; Molecularly imprinted polymers; N-Heterocyclic ligands
Part one: Separation Sciences: Sustainable Perspectives & Developments
1. Theory and mechanism of various separation processes
2. Separation science in the modern era
3. Novelty in the development of separation processes
Part two: Processes and Mechanisms of Separation Sciences
4. 21st century: Role of separation sciences
5. Large scale production separation process
6. Implementation of separation processes in medicinal field
Part three: Advances in Sample Preparation Techniques
7. Recent advances in sample preparation in chromatographic techniques
8. Modern sample preparation methods in separation science
9. Advances in sample preparation and analytical techniques for pharmaceutically active compounds
Part four: Advances in Chromatography
10. Recent developments in chromatography for pharmaceutical analysis
11. Chromatography for gas-liquid-solid in separation sciences
12. Chromatography a sustainable analysis technique in separation science
Part five: Advances in Membrane Technology
13. Advances of membrane technology in heavy metal ions separation
14. Advances of membrane technology in gas separation
15. Advances of membrane technology in enantiomer separation
16. Advances of membrane technology in waste water treatment
17. Advances of membrane technology in water desalination
Part six: Advances in Microfluidics
18. Advances in microfluidics for biomedical engineering applications
19. Recent advances in microfluidics and environmental analysis
20. Advances in microfluidics in infectious diseases
21. Advances in microfluidic skills for cell-to-cell interaction studies
Part seven: Green and Sustainable Separation Sciences
22. Green and sustainable separation of natural products
23. Green solvents for sustainable separation technologies
24. Green and sustainable processes for environmental and chemical engineering
25. Green extraction and, separation processes
Part eight: Challenges and Commercialization
26. Challenges in separation processes
27. Separation process commercialization
28. Conclusions
1. Theory and mechanism of various separation processes
2. Separation science in the modern era
3. Novelty in the development of separation processes
Part two: Processes and Mechanisms of Separation Sciences
4. 21st century: Role of separation sciences
5. Large scale production separation process
6. Implementation of separation processes in medicinal field
Part three: Advances in Sample Preparation Techniques
7. Recent advances in sample preparation in chromatographic techniques
8. Modern sample preparation methods in separation science
9. Advances in sample preparation and analytical techniques for pharmaceutically active compounds
Part four: Advances in Chromatography
10. Recent developments in chromatography for pharmaceutical analysis
11. Chromatography for gas-liquid-solid in separation sciences
12. Chromatography a sustainable analysis technique in separation science
Part five: Advances in Membrane Technology
13. Advances of membrane technology in heavy metal ions separation
14. Advances of membrane technology in gas separation
15. Advances of membrane technology in enantiomer separation
16. Advances of membrane technology in waste water treatment
17. Advances of membrane technology in water desalination
Part six: Advances in Microfluidics
18. Advances in microfluidics for biomedical engineering applications
19. Recent advances in microfluidics and environmental analysis
20. Advances in microfluidics in infectious diseases
21. Advances in microfluidic skills for cell-to-cell interaction studies
Part seven: Green and Sustainable Separation Sciences
22. Green and sustainable separation of natural products
23. Green solvents for sustainable separation technologies
24. Green and sustainable processes for environmental and chemical engineering
25. Green extraction and, separation processes
Part eight: Challenges and Commercialization
26. Challenges in separation processes
27. Separation process commercialization
28. Conclusions
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printing; 4D printing; API; Absorption; Adsorption; Advanced materials; Agro-waste recovery; Air monitoring; Air/water purification; Applications of polymeric membranes in gas separation; Automation; BTPhen; BTzP; Bio-based solvents; Bioactive agents; Biomass waste; Biomedical engineering; Biopharmaceutical nanoparticle formulations; Ceramic- and polymer-based membranes; Challenges and future perspectives; Chiral membranes; Chromatography; Classification; Complexing ligands; Cryopreservation; Crystallization; Data science; Desalination; Detection; Disease modeling; Distillation; Droplet flow; Drugs; Drying; Dye rejection; Effect separation processes; Electrophoresis; Enantioseparation membranes; Environmental analysis; Environmental management; Equilibrium; ExtendedSample preparation; Extraction; Filtration; Gas chromatography; Gas separation; Gas-liquid-solid chromatography; Graphene oxide; Green and sustainable separation; Green assessment tools; Green chemistry; Green extraction; Green separation; Green solvent; Green solvents; HPLC; HPLC-MS; HPTLC-MS; Healthcare; Healthcare and diagnostics; Heavy metal ion separation; Infectious diseases; Ionic liquid; LC/MS; Lab-on-a-chip; Lanthanide-actinide separation; Large-scale separation; Liquid; Liquid chromatography; Liquid extraction; MMMs; MOF composite; MOF-based MMMs; MOFs; Mass transfer coefficient; Material science; Materials used in polymeric membranes; Medicinal plants; Membrane; Membrane fabrication techniques; Membrane filtration; Membrane processes; Membrane science; Membrane separation; Membrane technologies; Membrane technology; Membrane types; Membranes; Metal-organic framework; Microextraction techniques; Microfluidic; Microfluidics; Microfluidics application; Microorganism monitoring; Miniaturization; Mixed-matrix membrane; Mixed-matrix membranes; Molecularly imprinted membranes; Molecularly imprinted polymers; N-Heterocyclic ligands
