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Physics and Chemistry of Advanced Laser Materials Processing Michel Meunier, Valentin Craciun, Eric Fogarassy, Wolfgang Kautek Edited by Michel Meunier, Valentin Craciun, Eric Fogarassy, Wolfgang Kautek Pages 1-688 (15 March 2003) Previous vol/issue Next vol/issue Actions for selected articles Se...
Laser processing is a highly versatile technique for the post-synthesis treatment and modification of transition metal dichalcogenides (TMDCs). However, to date, TMDCs synthesis typically relies on large area CVD growth and lithographic post-processing f
technologies have enabled laser processing speeds approaching meters-per-second, leading to a fast lab-to-fab transfer. The key aspects and latest achievements are reviewed with an emphasis on the fundamental relation between spatial resolution and total fabrication throughput. Emerging biomedical applicati...
In recent years, laser synthesis and processing of colloids (LSPC) has become a method for the scalable and continuous synthesis of size-controlled nanomaterials. Within this section of the book, the utilization of LSPC-generated nanoparticles in applications will be summarized. The most important ...
aspects of laser physics sciences including, inter alia, spectroscopy, quantum electronics, quantum optics, quantum electrodynamics, nonlinear optics, atom optics, quantum computation, quantum information processing and storage, fiber optics and their applications in chemistry, biology, engineering and ...
processing parameters on the formation of microstructure and mechanical properties, non-destructive testing methods, such as X-ray Computed Tomography (XCT), can allow for internal defects to be mapped without compromising the component (du Plessis et al.,2020). Despite the clear benefits of non-...
- 《Applied Physics A Materialsence & Processing》 被引量: 15发表: 2007年 Fabrication of nanowires of Al-doped ZnO using nanoparticle assisted pulsed laser deposition (NAPLD) for device applications Ramachandra Rao, Fabrication of nanowires of Al-doped ZnO using nanoparticle assisted pulsed laser ...
2. Graphite and graphene are widely used as an anode material in lithium ion batteries, based on intercalation chemistry. However, the theoretical maximum specific capacity of the graphite or graphene based Li-ion batteries is about 372 mAh/g that cannot meet growing customer needs3,4,5. ...
number of hydrogens and possible combinations leading to H3+formation, the yield decreases as the carbon chain length increases. The fundamental mechanistic findings presented here explore the formation of H3+, the most important ion in interstellar chemistry, through H2roaming occurring in ionic ...