LiF Nanoparticles Enhance Targeted Degradation of Organic Material under Low Dose X-ray Irradiation

Abstract: The targeted irradiation of structures by X-rays has seen application in a variety of fields. Herein, the use of 5–10 nm LiF nanoparticles to locally enhance the degradation of an organic thin film, diindenoperylene, under hard X-ray irradiation, at relatively low ionizing radiation doses, is shown. X-ray reflectivity analysis indicated that the film thickness increased 12.04 Å in air and 11.34 Å in a helium atmosphere, under a radiation dose of ∼65 J/cm2 for 3 h illumination with a bi-layer structure that con… Show more

“…One of the most reported X-ray-sensitive elements in materials for energy storage and conversion is fluorine. [3][4][5][6][7][8][9] Despite the literature concerning degradation of samples during XPS measurements, more and more articles neglect this issue. [10][11][12] Most present subtle work relating surface species to battery electrochemical performance.…”

Misuse of XPS in Analyzing Solid Polymer Electrolytes for Lithium Batteries

“…One of the most reported X-ray-sensitive elements in materials for energy storage and conversion is fluorine. [3][4][5][6][7][8][9] Despite the literature concerning degradation of samples during XPS measurements, more and more articles neglect this issue. [10][11][12] Most present subtle work relating surface species to battery electrochemical performance.…”

Misuse of XPS in Analyzing Solid Polymer Electrolytes for Lithium Batteries

“…Fluoride NCs based on divalent (e.g., SrF 2 , FeF 2 , MnF 2 ) and monovalent (e.g., NaF, LiF) cations have also been widely investigated. [5][6][7][8] Despite the tremendous popularity of colloidal fluoride NCs, however, those involving tetravalent cations (such as A 2 BF 6 , A + = K + , Na + , Cs + ; B 4+ = Zr 4+ , Si 4+ , Ti 4+ , Ge 4+ , Sn 4+ ) remain almost completely unexplored. In bulk, A 2 BF 6 lattices doped with Mn 4+ ions are leading candidates for narrow-line red emitters in display and lighting technologies, 9,10 and those doped with Re 4+ show efficient upconversion.…”

HF-Free synthesis of colloidal Cs₂ZrF₆ and (NH₄)₂ZrF₆ nanocrystals

Bromine‐Enhanced Organic Materials for X‐ray Sensors: Unveiling the Potential of Small Molecules and Polymers through Material Design and Film Fabrication