Lithium-boron-aluminum glasses and glass-ceramics doped with Eu3+: A potential optical thermometer for operation over a wide range of temperatures with uniform sensitivity

“…Desirable physical and chemical properties of a borosilicate glass may be tailored by varying its oxide contents and/or the type of M z+ cation 4,8,12 . For example, BS glasses with a minor P doping but large modifier contents possess fragmented networks that readily dissolve in body fluids, thereby being promising for biomedical implants, 16–20 while lanthanide‐cation‐bearing glasses exhibit luminescence and are potential candidates for glass scintillators 21–23 . Nuclear energy is playing an increasing role in satisfying energy demands and mitigating climate change due to its negligible CO 2 emissions, yet at the price of high‐level radioactive waste (HLW) products.…”

Cation field‐strength effects on ion irradiation‐induced mechanical property changes of borosilicate glass structures

“…Desirable physical and chemical properties of a borosilicate glass may be tailored by varying its oxide contents and/or the type of M z+ cation 4,8,12 . For example, BS glasses with a minor P doping but large modifier contents possess fragmented networks that readily dissolve in body fluids, thereby being promising for biomedical implants, 16–20 while lanthanide‐cation‐bearing glasses exhibit luminescence and are potential candidates for glass scintillators 21–23 . Nuclear energy is playing an increasing role in satisfying energy demands and mitigating climate change due to its negligible CO 2 emissions, yet at the price of high‐level radioactive waste (HLW) products.…”

Cation field‐strength effects on ion irradiation‐induced mechanical property changes of borosilicate glass structures

“…[1][2][3][4][5][6][7][8][9][10] In numerous application fields, most temperature sensors are required to have the characteristics of high sensitivity, high precision, and high timeliness. [11][12][13][14][15][16][17][18][19][20] With the continuous expansion of the application range of temperature measurement, conventional temperature sensors no longer meet the requirements of many fields, especially in the high-tech field. Therefore, expanding our knowledge to complex and submicron environments is of great value for the innovation of temperature detection.…”

Multiple fluorescence-temperature feedback in Y₇O₆F₉:Er/Yb crystal-embedded polyacrylonitrile fibers

Optical Temperature Sensing Based on Linear Change of Luminescence Intensity Ratio in Y2O3: Tm3+, Eu3+ Phosphors