SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2186776688> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W2186776688 endingPage "81" @default.
W2186776688 startingPage "73" @default.
W2186776688 abstract "Heterojunction with intrinsic thin layer (HIT) solar cell has attracted attention of photovoltaic research community due to its low process temperature, as compared to crystalline silicon (c-Si) solar cell and relatively high efficiency (η). In this solar cell structure, thin intrinsic amorphous silicon layers are used as surface passivator, which also acts as buffer layer at the top as well as bottom surfaces of n-type crystalline silicon (c-Si) wafer. A thin p-type a-Si top layer acts as an emitter while highly doped n-type bottom layer is used as a back surface field. There have been suggestions that the device performance comes with significant tunnelling transport of the charge carriers across junction barriers, whereas other investigation suggests that the diffusion of the carriers may be adequate. Various experimental as well as theoretical investigations were carried out to characterize and improve performance of HIT solar cell. For example, it was reported that a thicker p-type emitter (up to 40nm) shows higher open circuit voltage, although short circuit current density (Jsc) and cell efficiency decreases. Recent investigation showed that when the p-type and i-type layer thickness increased (within 4 nm) the open circuit voltage (Voc) as well as the efficiency improves. Using thinner c-Si absorbed is another interesting aspect in which a light trapping scheme can be combined to achieve a better performance characteristics. There has been several theoretical as well as experimental investigations on the use of various types of emitter layer and intrinsic layer of the cell, and their role on the Jsc, Voc, η and fill factor (FF). Investigations of HIT solar cell on p-type c-Si wafers have also been carried out. In this article we will present a brief review on some of the important aspects of the HIT solar cell." @default.
W2186776688 created "2016-06-24" @default.
W2186776688 creator A5003903345 @default.
W2186776688 creator A5025376967 @default.
W2186776688 creator A5042402711 @default.
W2186776688 creator A5047203272 @default.
W2186776688 creator A5049799625 @default.
W2186776688 creator A5067136962 @default.
W2186776688 creator A5073832121 @default.
W2186776688 date "2013-01-01" @default.
W2186776688 modified "2023-09-27" @default.
W2186776688 title "High-Efficiency Heterojunction with Intrinsic Thin-Layer Solar Cells: A Review" @default.
W2186776688 cites W1854373165 @default.
W2186776688 cites W1963853801 @default.
W2186776688 cites W1964282261 @default.
W2186776688 cites W1966295759 @default.
W2186776688 cites W1967511349 @default.
W2186776688 cites W1971453906 @default.
W2186776688 cites W1971820328 @default.
W2186776688 cites W1972014539 @default.
W2186776688 cites W1974481620 @default.
W2186776688 cites W1977066183 @default.
W2186776688 cites W1979244166 @default.
W2186776688 cites W1979348943 @default.
W2186776688 cites W1979972168 @default.
W2186776688 cites W1981567749 @default.
W2186776688 cites W1990008260 @default.
W2186776688 cites W1990160950 @default.
W2186776688 cites W1993183513 @default.
W2186776688 cites W1994572559 @default.
W2186776688 cites W1996075904 @default.
W2186776688 cites W1996322863 @default.
W2186776688 cites W2001621813 @default.
W2186776688 cites W2001623168 @default.
W2186776688 cites W2002300630 @default.
W2186776688 cites W2008561304 @default.
W2186776688 cites W2009016104 @default.
W2186776688 cites W2014696178 @default.
W2186776688 cites W2018882157 @default.
W2186776688 cites W2019042323 @default.
W2186776688 cites W2021225757 @default.
W2186776688 cites W2025913095 @default.
W2186776688 cites W2026635623 @default.
W2186776688 cites W2027238198 @default.
W2186776688 cites W2029825843 @default.
W2186776688 cites W2031921257 @default.
W2186776688 cites W2033193531 @default.
W2186776688 cites W2035777724 @default.
W2186776688 cites W2036468914 @default.
W2186776688 cites W2039105295 @default.
W2186776688 cites W2039731474 @default.
W2186776688 cites W2048147438 @default.
W2186776688 cites W2050234402 @default.
W2186776688 cites W2052280770 @default.
W2186776688 cites W2054103580 @default.
W2186776688 cites W2054681349 @default.
W2186776688 cites W2056202384 @default.
W2186776688 cites W2056529450 @default.
W2186776688 cites W2057427783 @default.
W2186776688 cites W2057889865 @default.
W2186776688 cites W2058174267 @default.
W2186776688 cites W2061905891 @default.
W2186776688 cites W2070417071 @default.
W2186776688 cites W2080025261 @default.
W2186776688 cites W2080262411 @default.
W2186776688 cites W2081490457 @default.
W2186776688 cites W2093462005 @default.
W2186776688 cites W2094616228 @default.
W2186776688 cites W2097279729 @default.
W2186776688 cites W2109321755 @default.
W2186776688 cites W2111678290 @default.
W2186776688 cites W2112199304 @default.
W2186776688 cites W2114662774 @default.
W2186776688 cites W2122761869 @default.
W2186776688 cites W2123590280 @default.
W2186776688 cites W2127298423 @default.
W2186776688 cites W2128972318 @default.
W2186776688 cites W2134539406 @default.
W2186776688 cites W2137385037 @default.
W2186776688 cites W2145195212 @default.
W2186776688 cites W2151313221 @default.
W2186776688 cites W2166659507 @default.
W2186776688 cites W2169429960 @default.
W2186776688 cites W2171664928 @default.
W2186776688 cites W2244767099 @default.
W2186776688 cites W72415205 @default.
W2186776688 cites W1994185618 @default.
W2186776688 cites W2067717252 @default.
W2186776688 cites W2188808829 @default.
W2186776688 doi "https://doi.org/10.21218/cpr.2013.1.2.073" @default.
W2186776688 hasPublicationYear "2013" @default.
W2186776688 type Work @default.
W2186776688 sameAs 2186776688 @default.
W2186776688 citedByCount "7" @default.
W2186776688 countsByYear W21867766882014 @default.
W2186776688 countsByYear W21867766882015 @default.
W2186776688 countsByYear W21867766882017 @default.
W2186776688 countsByYear W21867766882018 @default.