Spectroscopy of chromium(III) in β-quartz and petalite-like transparent glass ceramics: Ligand field strengths of chromium(III)

“…For instance as the honeycomb support for exhaust catalysts and there are promising new applications as substrates in electronic packaging and in the development of tunable lasers and solar concentrators [2][3][4][5][6][7][8][9][10]. A variety of preparation methodologies have been directed at synthesizing cordierite ceramics.…”

The development of monodispersed alumino-chromate spinel nanoparticles in doped cordierite glass, studied by in situ X-ray small and wide angle scattering, and chromium X-ray spectroscopy

“…For instance as the honeycomb support for exhaust catalysts and there are promising new applications as substrates in electronic packaging and in the development of tunable lasers and solar concentrators [2][3][4][5][6][7][8][9][10]. A variety of preparation methodologies have been directed at synthesizing cordierite ceramics.…”

The development of monodispersed alumino-chromate spinel nanoparticles in doped cordierite glass, studied by in situ X-ray small and wide angle scattering, and chromium X-ray spectroscopy

“…Recently, Kisilev, et ale have reported the exci tation and emission spectra of a Cr 3+ doped~quartz glass-ceramic. 29 Excitation and emission spectra are similar to those from Cr 3 + doped glasses. Therefore, there was no evidence to conclude that the observed emission originated in the~quartz phase.…”

Luminescent solar concentrator development: Final subcontract report, 1 June 1982-31 December 1984

“…Эти полосы относятся к ионам Cr 3+ , находящимся в низкосимметричном поле лигандов, для которого уровень 4 T 2 лежит ниже первого дублета 2 E. Во всех позициях с низкосимметричным окружением люминесценция ионов Cr 3+ при комнатной температуре состоит из широкой бесструктурной полосы в ближней инфракрасной области вследствие колебательноуширенного перехода 4 T 2 − 4 A 2 . В зависимости от состава стекла максимум такого спектра варьируется в диапазоне 750−850 nm [19,20] при возбуждении излучением с длиной волны 453 nm. При этом максимальный квантовый выход люминесценции ионов хрома был получен для щелочносиликатных стекол и составил 17.5% [19].…”

Исследование Спектральных Свойств Калиево-Алюмоборатных Стекол, Легированных Хромом