Radiation dosimeter design based on photonic crystals and other structure color materials
This article reviews recent studies on three-dimensional(3D)radiation dosimeter designs based on photonic crystals and other structure color materials.Photonic crystals and other structure color materials have a wide range of applications in fields such as medical detection,graphic printing,and anti-counterfeiting identification owing to their photonic bandgap properties and bright structural colors.The responsiveness of photonic crystals and other structure color materials to ionizing radiation has been exploited to develop a photonic crystal thin-film dosimeter than can achieve a full visible spectral shift of Bragg absorption peaks under X-or γ-ray irradiation.The dosimeter has a highly tunable application range and a spatial resolution exceeding 30 μm;moreover,it exhibits high environmental stability to light,temperature,and humidity.This study proposes three reading methods:spectrometer detection,naked-eye comparison with standard color cards,and mobile phone-based hue-value detection techniques.Additionally,the sensitivity of the photonic crystal dosimeter was improved by adding polyethylene glycol as a radiation-sensitive material.Gelatin methacrylate was used to prepare hydrogel films,which were chemically modified to introduce unsaturated vinyl groups to achieve sensitive response to X-rays.The hydrogel photonic crystal dosimeter demonstrated favorable dose-response performance on clinical radiotherapy equipment,which agrees well with the measurement results of commercial film dosimeters.Finally,the photonic crystal dosimeter was combined with three-dimensional printing technology to three-dimensionalize the hydrogel photonic crystal dosimeter,thus providing translational potential for topographic dose mapping in clinical radiotherapy.Meanwhile,new thin-film optical interference films have emerged,and the introduction of radiation-responsive groups such as modified double bonds,disulfides/diselenides/disulfides,and azo groups significantly improved their sensitivity and enabled simultaneous drug release under X-ray assistance.This study provides theoretical and technical foundation for the development of portable,real-time,wide-ranging,and high-spatial-resolution photonic crystal radiation dosimeters,which have demonstrated application potential,although their dose verification in actual medical radiotherapy is yet to be realized.
NETL
NSTL
万方数据
