On January 22, 2021, Wallace, Jason U.; Marshall, Kenneth L.; Batesky, Donald J.; Kosc, Tanya Z.; Hoffman, Brittany N.; Papernov, Semyon; Garrett, Londrea; Shojaie, Jalil; Demos, Stavros G. published an article.Computed Properties of 111-29-5 The title of the article was Highly Saturated Glassy Liquid Crystal Films Having Nano- and Microscale Thicknesses for High-Power Laser Applications. And the article contained the following:
The optical properties of glassy liquid crystals (GLC’s) designed to provide high resistance to laser-induced damage are explored. GLC’s readily enable freezing of the anisotropic ordering of liquid crystals into the glassy state. This solidity avoids issues of fluid leakage while providing mech. robustness and the promise of single-substrate coatings or stand-alone films of nanometer to micrometer thicknesses. A series of three increasingly saturated GLC’s were synthesized and tested for their thin-film (hundreds of nanometers to tens of micrometers) high-peak-power laser-damage resistance with nanosecond pulses at 1053, 532, and 351 nm, as well as their durability under continuous-wave, broadband UV illumination. The GLC’s with higher degrees of saturation demonstrated high resistance to laser-induced damage, extending from the near-IR to the UV spectral region. The experimental process involved the reaction of Pentane-1,5-diol(cas: 111-29-5).Computed Properties of 111-29-5
The Article related to saturated glassy liquid crystal film nano microscale thickness laser, Optical, Electron, and Mass Spectroscopy and Other Related Properties: Electronic Spectroscopy and other aspects.Computed Properties of 111-29-5
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