Organohalide Lead Perovskites: More Stable than Glass under Gamma-Ray Radiation

Organohalide metal perovskites have emerged as promising semiconductor materials for use as space solar cells and radiation detectors. However, there is a lack of study of their stability under operational conditions. Here a stability study of perovskite solar cells under gamma‐rays and visible light simultaneously is reported. The perovskite active layers are shown to retain 96.8% of their initial power conversion efficiency under continuous irradiation of gamma‐rays and light for 1535 h, where gamma‐rays have an accumulated dose of 2.3 Mrad. In striking contrast, a glass substrate shows obvious loss of transmittance under the same irradiation conditions. The excellent stability of the perovskite solar cells benefits from the self‐healing behavior to recover its efficiency loss from the early degradation induced by gamma‐ray irradiation. Defect density characterization reveals that gamma‐ray irradiation does not induce electronic trap states. These observations demonstrate the prospects of perovskite materials in applications of radiation detectors and space solar cells

Acquiring and Modeling of Si Solar-Cell Transient Response to Pulsed X-Ray

We report on the acquisition and modeling of the transient response of a commercial silicon (Si) solar cell using a benchtop pulsed X-ray source. The solar-cell transient output to the X-ray pulses was acquired under the dark and steady-state light illumination to mimic the practical operation of a solar cell under different light illumination levels. A solar-cell circuit model was created to develop a fundamental understanding of the transient current/voltage response of solar cell at read-out circuit level. The model was validated by a good agreement between the simulation and experimental results. It was found that the solar-cell resistance ( $R$ ) and capacitance ( $C$ ) depend on the light illumination, and the resulting variation in $RC$ time constant significantly affects the solar-cell transient response. Thus, the solar cell produced different transient signals under different illumination intensities in response to the same X-ray pulse. The experimental data acquired in this work proves the feasibility of using solar panels for prompt detection of nuclear detonations, which also builds a practical mode of X-ray detection using a low-cost self-powered detector

Teores de β-caroteno em suplementos e biomassa de Spirulina Contents of β-carotene in supplements and biomass of Spirulina

A cianobactéria Spirulina tem sido utilizada há séculos, tendo em vista suas propriedades nutricionais e medicinais. Neste trabalho, objetivou-se analisar os teores de &#946;-caroteno tanto em suplementos alimentares a base de Spirulina comercializados em estabelecimentos de produtos naturais no mercado varejista, quanto em S. platensis cultivada em laboratório. Alguns pigmentos carotenóides possuem atividade de vitamina A e, dentre eles, o &#946;-caroteno é o que apresenta maior atividade biológica. A extração de &#946;-caroteno foi feita com metanol:água (90:10 v/v), seguida de saponificação e partição em n-hexano. As análises cromatográficas foram realizadas em coluna Waters Spherisorb S5 ODS 2 (4,6 x 250 mm), usando metanol:tetrahidrofurano (90:10, v/v) bombeado a 2 mL min-1, com registro dos cromatogramas em 450 nm. Os suplementos alimentares a base de Spirulina apresentaram baixos teores de &#946;-caroteno. A maior concentração foi encontrada em S. platensis cultivada a 24º C com fotoperíodo de 16 h claro e 8 h escuro. Considerando sua atividade provitamínica, os teores de retinol equivalente (RE) nas microalgas analisadas no presente trabalho foram calculados a partir do &#946;-caroteno para classificá-las como fonte excelente ou fonte útil de vitamina A.<br>Spirulina is a cyanobacterium that has been used for several centuries due to its nutritional and medicinal properties. This work has evaluated the contents of &#946;-carotene both in Spirulina commercialized as food supplement, purchased from natural product shops, and in S. platensis reared under laboratory conditions. Some carotenoids exhibit pro-vitamin A activity, and &#946;-carotene presents the greatest biological activity. &#946;-Carotene of microalgae was extracted in 90% aqueous methanol. These extracts were saponified and partitioned in n-hexane. Chromatographic analyses were carried out in a Spherisorb column S5 ODS 2 (4.6 x 250 mm), with a mobile phase of methanol:tetrahydrofuran (90:10, v/v) delivered at 2 mL min-1 and chromatograms registered at 450 nm absorbance. Food supplement made with Spirulina presented low content of &#946;-carotene. The highest content of &#946;-carotene was detected in S. platensis cultivated under 24º C with photoperiod of 16 h light and 8 h dark. Considering its pro-vitamin activity, retinol equivalent (RE) was calculated from &#946;-carotene to determine whether alga material could be claimed as an useful or an excellent source of the vitamins A