3D Printing in Analytical Chemistry: Sample Preparation, Separation, and Sensing covers all the applications of 3D printed systems in relevant analytical areas such as sample preparation (use of sorbents, membranes, and devices), separation devices in analytical techniques, and as components in sensors and detection systems, among others. The book also includes key aspects on the preparation and design of novel 3D printed devices for analytical applications, including tips and tricks written by experts. Special features based on 3D printed structures for different applications are also highlighted, along with the most relevant works.…mehr
3D Printing in Analytical Chemistry: Sample Preparation, Separation, and Sensing covers all the applications of 3D printed systems in relevant analytical areas such as sample preparation (use of sorbents, membranes, and devices), separation devices in analytical techniques, and as components in sensors and detection systems, among others. The book also includes key aspects on the preparation and design of novel 3D printed devices for analytical applications, including tips and tricks written by experts. Special features based on 3D printed structures for different applications are also highlighted, along with the most relevant works.
1. Introduction to 3D printing from the analytical chemistry viewpoint 2. Overview of 3D printing technologies and materials 3. Design andTips and tricks for fabrication of 3D printing devices for analytical applications 4. 3D printing of analytical platforms: From prototyping to commercialization 5. 3D printing devices as supports for sample preparation 6. 3D printed materials in liquid-liquid extraction 7. 3D printed materials in solid-phase extraction and microextraction 8. 3D printing and smart materials for sample preparation 9. 3D printed devices in membrane separation (D. Spence/F. Maya) 10. Automatic methods on using 3D printing devices for sample preparation 11. 3D printing in chromatographic techniques 12. 3D printing in electrophoretic techniques 13. 3D printing in spectrometric detection 14. 3D printed devices for optical (bio)sensing 15. 3D printed devices for electrochemical sensing 16. Micro/milifluidic platforms for optosensing applications 17. Micro/milifluidic platforms for bioanalytical applications 18. Micro/milifluidic platforms for electrochemical detection 19. Less common applications of 3D printing
1. Introduction to 3D printing from the analytical chemistry viewpoint 2. Overview of 3D printing technologies and materials 3. Design andTips and tricks for fabrication of 3D printing devices for analytical applications 4. 3D printing of analytical platforms: From prototyping to commercialization 5. 3D printing devices as supports for sample preparation 6. 3D printed materials in liquid-liquid extraction 7. 3D printed materials in solid-phase extraction and microextraction 8. 3D printing and smart materials for sample preparation 9. 3D printed devices in membrane separation (D. Spence/F. Maya) 10. Automatic methods on using 3D printing devices for sample preparation 11. 3D printing in chromatographic techniques 12. 3D printing in electrophoretic techniques 13. 3D printing in spectrometric detection 14. 3D printed devices for optical (bio)sensing 15. 3D printed devices for electrochemical sensing 16. Micro/milifluidic platforms for optosensing applications 17. Micro/milifluidic platforms for bioanalytical applications 18. Micro/milifluidic platforms for electrochemical detection 19. Less common applications of 3D printing
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