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Full Description
Laser technologies offer multiple benefits in the synthesis and characterisation of nanomaterials. In synthesis the higher selectivity and shorter processing times of laser-based techniques can help you to save time and minimise waste, compared to conventional fabrication processes. Characterisation with lasers allows you to study nonlinear optical effects which provide better molecular selectivity and reduced background signals.
Beginning with chapters introducing the principles of lasers and non-linear optics, this book will guide you through using laser-based techniques for the synthesis and characterisation of nanomaterials. Laser sintering and melting are included, as well as approaches to 3D printing by using multiphoton lithography. Various characterisation techniques are described, including multiscale and ultrafast dynamics, and LIBS.
Both experienced practitioners and those aspiring to use lasers in their work will find this book a useful and inspiring guide.
Contents
Laser Fundamentals
Fundamentals of Non-linear Optics in Nanostructures
Linear and Nonlinear Optical Techniques for Light-Matter Interaction in Nanoscale Systems
Laser Induced Plasma: Fundamentals and Characterization
Ultrafast Laser Nanoprocessing and Applications
Ultrafast Laser Ablation - A Peerless Synthesis Strategy for Functional Nanomaterials
Advances in Ultrafast Laser Structuring of Materials at the Nanoscale
Recent Advances and Prospects in Selective Laser Sintering (SLS) and Melting (SLM) and Multiphoton Lithography for 3D Printing
Nonlinear Optical Techniques for Nanomaterials
LIBS for Characterizing Nanomaterials
Transient Absorption Spectroscopy: Probing the Ultrafast Dynamics in Nanomaterial Complex Systems
Application of Random Lasers for Probing Multi-scale Dynamics at the Nano-Microscale
