His primary scientific interests are in Dye laser, Photochemistry, Laser, Lasing threshold and Methyl methacrylate. His research in the fields of Solid-state dye lasers overlaps with other disciplines such as Solid-state. His Photochemistry research is multidisciplinary, incorporating elements of BODIPY, Fluorescence, Analytical chemistry and Monomer.
Roberto Sastre works mostly in the field of Monomer, limiting it down to concerns involving Polymer chemistry and, occasionally, Azide. The concepts of his Laser study are interwoven with issues in Nanoparticle, Nanotechnology, Hybrid material and Optoelectronics. His work deals with themes such as Laser pumping and Benzimidazole, which intersect with Methyl methacrylate.
His primary areas of investigation include Photochemistry, Dye laser, Laser, Polymer chemistry and Methyl methacrylate. His Photochemistry research is mostly focused on the topic Chromophore. His Dye laser research integrates issues from Rhodamine 6G, BODIPY, Laser pumping and Lasing threshold.
As part of the same scientific family, Roberto Sastre usually focuses on Laser, concentrating on Optoelectronics and intersecting with Thin film. His Polymer chemistry research includes themes of Polymerization, Bulk polymerization, Radical polymerization, Polymer and Monomer. In most of his Methyl methacrylate studies, his work intersects topics such as Methacrylate.
Roberto Sastre mainly investigates Laser, Dye laser, Optoelectronics, BODIPY and Photochemistry. Roberto Sastre interconnects Wavelength, Solid solution and Nanoparticle, Nanotechnology, Hybrid material in the investigation of issues within Laser. His Dye laser research incorporates themes from Photonics, Fluorescence, Polymer and Lasing threshold.
His Lasing threshold research includes elements of Rhodamine, Rhodamine 6G, Doping, Active laser medium and Methyl methacrylate. His BODIPY research also works with subjects such as
Roberto Sastre mostly deals with Laser, Dye laser, BODIPY, Photochemistry and Optoelectronics. He combines subjects such as Nanoparticle and Nanotechnology with his study of Laser. His studies deal with areas such as Photonics, Spontaneous emission and Doping as well as Dye laser.
His work deals with themes such as Reagent, Laser linewidth, Polymer chemistry and Analytical chemistry, which intersect with BODIPY. He has included themes like Methyl methacrylate and Quantum yield, Fluorescence, Bathochromic shift in his Photochemistry study. His Methyl methacrylate study combines topics from a wide range of disciplines, such as Singlet oxygen, Moiety, Solid solution and Lasing threshold.
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Self-curing membranes of chitosan/PAA IPNs obtained by radical polymerization: preparation, characterization and interpolymer complexation.
Carlos Peniche;Waldo Argüelles-Monal;Natalia Davidenko;Roberto Sastre.
Polymeric solid-state dye lasers: Recent developments
A. Costela;I. Garcia-Moreno;Roberto Sastre.
Physical Chemistry Chemical Physics (2003)
Correlations between photophysics and lasing properties of dipyrromethene–BF2 dyes in solution
T.López Arbeloa;F.López Arbeloa;I.López Arbeloa;I Garcı́a-Moreno.
Chemical Physics Letters (1999)
Polymeric solid‐state dye lasers
Roberto Sastre;Angel Costela.
Advanced Materials (1995)
Solid-state dye lasers based on copolymers of 2-hydroxyethyl methacrylate and methyl methacrylate doped with rhodamine 6G
A. Costela;F. Florido;I. Garcia-Moreno;R. Duchowicz.
Applied Physics B (1995)
Photophysical and Lasing Properties of New Analogs of the Boron−Dipyrromethene Laser Dye PM567 in Liquid Solution
A. Costela;I. Garcia-Moreno;C. Gomez;R. Sastre.
Journal of Physical Chemistry A (2002)
Solid-state dye laser based on Coumarin 540A-doped polymeric matrices
A. Costela;I. Garcia-Moreno;J.M. Figuera;F. Amat-Guerri.
Optics Communications (1996)
8-PropargylaminoBODIPY: unprecedented blue-emitting pyrromethene dye. Synthesis, photophysics and laser properties.
C. F. Azael Gómez-Durán;Inmaculada García-Moreno;Angel Costela;Virginia Martin.
Chemical Communications (2010)
Photophysical and lasing properties of pyrromethene 567 dye in liquid solution.: Environment effects
F. López Arbeloa;T. López Arbeloa;I. López Arbeloa;I. Garcı́a-Moreno.
Chemical Physics (1998)
Proton-transfer lasing from solid organic matrices
A.U. Acuña;F. Amat-Guerri;A. Costela;A. Douhal.
Chemical Physics Letters (1991)
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