| Description |
1 online resource (xi, 250 pages) : illustrations |
| Contents |
Intro; Half Title; Title; Copyright; Preface; Dedication; Contents; Chapter 1 An Introduction to 3D Printing 1; 1.1 History; 1.2 3D Print Files; 1.3 3D Printing Techniques; 1.3.1 Stereolithography (SL); 1.3.2 Selective Laser Sintering and Melting (SLS/M); 1.3.3 Inkjet Printing; 1.3.4 Fused Deposition Modelling (FDM); 1.4 The 3D Revolution; References; Chapter 2 3D Printing of Micro- and Macro-fluidic Devices 22; 2.1 Introduction; 2.2 Microfluidic Elements; 2.2.1 Droplet-based Microfluidics; 2.2.2 Microfluidic Mixers; 2.2.3 Miscellaneous Microfluidic Elements; 2.3 Microfluidic Valves |
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2.3.1 Passive Valves; 2.3.2 Active Membrane-based Valves; 2.4 Pumps; 2.5 Plug-and-Play Modules; 2.6 Outlook; References; Chapter 3 3D-printed Analytical Detectors 56; 3.1 Introduction; 3.2 Optical Detectors; 3.2.1 Smartphone Optical-sensing Platforms; 3.2.2 Flow-cells for Mixing, Reaction, and Detection; 3.2.3 Miscellaneous Optical Devices; 3.3 Electrochemical Detectors; 3.3.1 Electrochemical Detector Cells; 3.3.2 Printed Electrodes; 3.3.3 Miscellaneous Electrochemical Devices; 3.4 Outlook; References; Chapter 4 3D Printing in Analytical Chemistry Methods and Applications 94; 4.1 Introduction |
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4.2 Extraction Methods; 4.2.1 Solid-phase Extraction; 4.2.2 Centrifugation and Distillation Devices; 4.3 Analytical and Preparative Separations; 4.3.1 Liquid Chromatography; 4.3.2 Gas Chromatography; 4.3.3 Thin-layer Chromatography; 4.4 Mass Spectrometry; 4.4.1 Ambient Ionisation Sources; 4.4.2 Interfaces; 4.5 Integrated Flow-analysis Manifolds and Lab-on-a-chip Devices; 4.6 Outlook; References; Chapter 5 3D Printing in Pharmaceutical Chemistry 138; 5.1 Introduction; 5.2 Development of Pharmaceutical 3D Printing; 5.2.1 Binder Jetting; 5.2.2 Fused Deposition Modelling; 5.2.3 Stereolithography |
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5.2.4 PolyJet Printing; 5.2.5 Selective Laser Sintering; 5.3 Solid Oral Drug Delivery Systems; 5.3.1 Personalised Medicines; 5.3.2 Fast Disintegrating Solid Oral Drug Delivery Systems; 5.3.3 Miscellaneous Solid Oral Drug Delivery Systems; 5.4 Implantable Drug Delivery Systems; 5.5 Transdermal Drug Delivery Systems; 5.6 Outlook; References; Chapter 6 3D Printing in Biochemistry 176; 6.1 Introduction; 6.2 Cell Biology; 6.2.1 Cellular Assays; 6.2.2 Cell Sorting; 6.2.3 Electroporation; 6.3 Molecular Biology; 6.4 In vitro Drug Screening; 6.5 Biocompatibility of 3D Print Materials; 6.6 Outlook |
| Summary |
3D printing has rapidly established itself as an essential enabling technology within research and industrial chemistry laboratories. Since the early 2000s, when the first research papers applying this technique began to emerge, the uptake by the chemistry community has been both diverse and extraordinary, and there is little doubt that this fascinating technology will continue to have a major impact upon the chemical sciences going forward. This book provides a timely and extensive review of the reported applications of 3D Printing techniques across all fields of chemical science. Describing, comparing, and contrasting the capabilities of all the current 3D printing technologies, this book provides both background information and reader inspiration, to enable users to fully exploit this developing technology further to advance their research, materials and products. It will be of interest across the chemical sciences in research and industrial laboratories, for chemists and engineers alike, as well as the wider science community |
| Notes |
Print version record |
| Subject |
Three-dimensional printing -- Industrial applications
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Chemistry, Technical.
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TECHNOLOGY & ENGINEERING -- Mechanical.
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Chemistry, Technical
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| Form |
Electronic book
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| Author |
Paull, Brett, author.
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Nesterenko, Pavel N., author.
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| ISBN |
9781788015745 |
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1788015746 |
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9781788017664 |
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1788017668 |
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