SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W88755727> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W88755727 abstract "Photovoltaic technologies could play a pivotal role in tackling future fossil fuel energy shortages, while significantly reducing our carbon dioxide footprint. Crystalline silicon is pervasively used in single junction solar cells, taking up ~80 % of the photovoltaic market. Semiconductor-based inorganic solar cells deliver relatively high conversion efficiencies at the price of high material and manufacturing costs. A great amount of research has been conducted to develop low-cost photovoltaic solutions by incorporating organic materials. Organic semiconductors are conjugated hydrocarbon-based materials that are advantageous because of their low material and processing costs and a nearly unlimited supply. Their mechanical flexibility and tunable electronic properties are among other attractions that their inorganic counterparts lack. Recently, collaborations in nanotechnology research have combined inorganic with organic semiconductors in a “hybrid” effort to provide high conversion efficiencies at low cost. Successful integration of these two classes of materials requires a profound understanding of the material properties and an exquisite control of the morphology, surface properties, ligands, and passivation techniques to ensure an optimal charge carrier generation across the hybrid device. In this chapter, we provide background information of this novel, emerging field, detailing the various approaches for obtaining inorganic nanostructures and organic polymers, introducing a multitude of methods for combining the two components to achieve the desired morphologies, and emphasizing the importance of surface manipulation. We highlight several studies that have fueled new directions for hybrid solar cell research, including approaches for maximizing efficiencies by controlling the morphologies of the inorganic component, and in situ molecular engineering via electrochemical polymerization of a polymer directly onto the inorganic nanowire surfaces. In the end, we provide some possible future directions for advancing the field, with a focus on flexible, lightweight, semitransparent, and low-cost photovoltaics." @default.
W88755727 created "2016-06-24" @default.
W88755727 creator A5033632697 @default.
W88755727 creator A5053257237 @default.
W88755727 creator A5057389094 @default.
W88755727 creator A5057828214 @default.
W88755727 date "2013-10-16" @default.
W88755727 modified "2023-09-26" @default.
W88755727 title "Hybrid Solar Cells: Materials, Interfaces, and Devices" @default.
W88755727 cites W1520009589 @default.
W88755727 cites W1963479887 @default.
W88755727 cites W1964195827 @default.
W88755727 cites W1965464747 @default.
W88755727 cites W1965597073 @default.
W88755727 cites W1968425946 @default.
W88755727 cites W1978191426 @default.
W88755727 cites W1979887390 @default.
W88755727 cites W1981221846 @default.
W88755727 cites W1981617717 @default.
W88755727 cites W1988567331 @default.
W88755727 cites W1991064720 @default.
W88755727 cites W1993540297 @default.
W88755727 cites W2003290618 @default.
W88755727 cites W2003703089 @default.
W88755727 cites W2004515385 @default.
W88755727 cites W2008224854 @default.
W88755727 cites W2009781268 @default.
W88755727 cites W2023579904 @default.
W88755727 cites W2024966436 @default.
W88755727 cites W2026025109 @default.
W88755727 cites W2027071441 @default.
W88755727 cites W2027105111 @default.
W88755727 cites W2029100134 @default.
W88755727 cites W2043415890 @default.
W88755727 cites W2045019097 @default.
W88755727 cites W2053389582 @default.
W88755727 cites W2053926714 @default.
W88755727 cites W2057519617 @default.
W88755727 cites W2058888927 @default.
W88755727 cites W2062139899 @default.
W88755727 cites W2073126198 @default.
W88755727 cites W2073282611 @default.
W88755727 cites W2073534054 @default.
W88755727 cites W2073777485 @default.
W88755727 cites W2077565465 @default.
W88755727 cites W2091065652 @default.
W88755727 cites W2098006793 @default.
W88755727 cites W2100641034 @default.
W88755727 cites W2108227460 @default.
W88755727 cites W2124790005 @default.
W88755727 cites W2125742458 @default.
W88755727 cites W2143082174 @default.
W88755727 cites W2155361455 @default.
W88755727 cites W2156749032 @default.
W88755727 cites W2158884702 @default.
W88755727 cites W2158915248 @default.
W88755727 cites W2327231688 @default.
W88755727 cites W2329070902 @default.
W88755727 cites W2501046150 @default.
W88755727 doi "https://doi.org/10.1007/978-3-319-01988-8_12" @default.
W88755727 hasPublicationYear "2013" @default.
W88755727 type Work @default.
W88755727 sameAs 88755727 @default.
W88755727 citedByCount "0" @default.
W88755727 crossrefType "book-chapter" @default.
W88755727 hasAuthorship W88755727A5033632697 @default.
W88755727 hasAuthorship W88755727A5053257237 @default.
W88755727 hasAuthorship W88755727A5057389094 @default.
W88755727 hasAuthorship W88755727A5057828214 @default.
W88755727 hasConcept C108225325 @default.
W88755727 hasConcept C119599485 @default.
W88755727 hasConcept C127413603 @default.
W88755727 hasConcept C171250308 @default.
W88755727 hasConcept C18903297 @default.
W88755727 hasConcept C192562407 @default.
W88755727 hasConcept C21880701 @default.
W88755727 hasConcept C2779227376 @default.
W88755727 hasConcept C2779667780 @default.
W88755727 hasConcept C2780824857 @default.
W88755727 hasConcept C2780936489 @default.
W88755727 hasConcept C33574316 @default.
W88755727 hasConcept C41291067 @default.
W88755727 hasConcept C47737302 @default.
W88755727 hasConcept C49040817 @default.
W88755727 hasConcept C548081761 @default.
W88755727 hasConcept C58842153 @default.
W88755727 hasConcept C61696701 @default.
W88755727 hasConcept C68189081 @default.
W88755727 hasConcept C86803240 @default.
W88755727 hasConcept C91614233 @default.
W88755727 hasConceptScore W88755727C108225325 @default.
W88755727 hasConceptScore W88755727C119599485 @default.
W88755727 hasConceptScore W88755727C127413603 @default.
W88755727 hasConceptScore W88755727C171250308 @default.
W88755727 hasConceptScore W88755727C18903297 @default.
W88755727 hasConceptScore W88755727C192562407 @default.
W88755727 hasConceptScore W88755727C21880701 @default.
W88755727 hasConceptScore W88755727C2779227376 @default.
W88755727 hasConceptScore W88755727C2779667780 @default.
W88755727 hasConceptScore W88755727C2780824857 @default.