Bifacial Structures of ZnS Humidity Sensor and Cd-Free CIGS Photovoltaic Cell as a Self-Powered Device

Hsueh, Hsin Ta; Hsiao, Yu Jen; Lin, Yi‐Kuei; Wu, Chi Jung

doi:10.1109/led.2014.2361648

Cited by 5 publications

(2 citation statements)

References 10 publications

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“…In addition, this figure shows the influence of illumination on the current measured at RH 95%. Data extracted from [ 114 ]. ( b ) Variation in conductometric response of ZnS nanowires versus RH in the range of 22–97%.…”

Section: Limitationsmentioning

confidence: 99%

II–VI Semiconductor-Based Conductometric Gas Sensors: Is There a Future for These Sensors?

Korotcenkov

2024

Sensors

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A review of the state of research in the development of conductometric gas sensors based on II–VI semiconductors is given. It was shown that II–VI compounds indeed have properties that are necessary for the development of highly efficient gas sensors. In this case, to achieve the required parameters, all approaches developed for metal oxides can be used. At the same time, during a detailed review, it was concluded that sensors based on II–VI compounds have no prospects for appearing on the gas sensor market. The main obstacle is the instability of the surface state, which leads to poor reproducibility of parameters and drift of sensor characteristics during operation.

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Section: Limitationsmentioning

confidence: 99%

II–VI Semiconductor-Based Conductometric Gas Sensors: Is There a Future for These Sensors?

Korotcenkov

2024

Sensors

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“…Interestingly, 82.41% (872 out of 1058) PV modules affected by this type of hot-spotting are located in costal locations. These sites are typically affected by high wind speed (ultimately cooling the PV modules [23]), rapid deviations in humidity levels (lower humidity yield better performance of PV modules [24]), and lower temperature records compared to central UK. Therefore, coastal locations expect to have lower risks for causing multiple hot-spotted solar cells in PV modules, compared to central and cold sites.…”

Section: Second Observationmentioning

confidence: 99%

Evaluating Power Loss and Performance Ratio of Hot-Spotted Photovoltaic Modules

Dhimish

Mather

Holmes

2018

IEEE Trans. Electron Devices

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The impact of Photovoltaic (PV) hot-spots is assessed through the analysis of 2580 polycrystalline silicon PV modules distributed across the UK. PV hotspots were categorized into eight different groups using the percentage of power loss (PLL). All hot-spots groups were modelled using the cumulative density function (CDF), state of art geographical mapping, and performance ratio (PR) analysis. Significantly, it was found that 92.15% of the PV modules affected by hot-spotted PV string are located in northern UK, were the effect of low temperature levels, heavy snow, and hoarfrost are more significant. Lastly, it was found that the distribution of PV modules affected by only one hot-spotted solar cell, are likely (82.41%) located in coastal locations. Hence, coastal locations expect to have lower risks for causing multiple hot-spotted solar cells in PV modules, compared to central and colder locations. The PR of all examined PV modules was analysed. It was evident that the mean PR is significantly reduced due to the existence of hot-spots in the PV modules. The least difference in the PR between healthy and hot-spotted PV modules is equal to -0.83%, whereas the most difference is calculated at -15.47%.

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II–VI Semiconductor-Based Humidity Sensors

Ivanov¹,

Brînzari²

2023

Handbook of II-VI Semiconductor-Based Sensors and Radiation Detectors

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Bifacial Structures of ZnS Humidity Sensor and Cd-Free CIGS Photovoltaic Cell as a Self-Powered Device

Cited by 5 publications

References 10 publications

II–VI Semiconductor-Based Conductometric Gas Sensors: Is There a Future for These Sensors?

II–VI Semiconductor-Based Conductometric Gas Sensors: Is There a Future for These Sensors?

Evaluating Power Loss and Performance Ratio of Hot-Spotted Photovoltaic Modules

II–VI Semiconductor-Based Humidity Sensors

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