SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2890530168> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W2890530168 endingPage "13796" @default.
W2890530168 startingPage "13787" @default.
W2890530168 abstract "Cu(In,Ga)Se2 (CIGS) materials are one of the most promising solar cell technologies owing to their large absorption coefficient and tunable direct bandgap, and they have gained considerable commercial maturity. The study herein puts forward the preparation of nanostructured CIGS films containing branched nanorod architectures, which is reported for the first time. The process employs an economic pulse-reverse electrodeposition technique by utilizing the fundamentals of electro-reduction and oxidation to fabricate nanostructured CIGS and completely avoids conventional energy-intensive high-temperature annealing/selenization step. Comprehensive characterization of nanoarchitectured films reveals the stoichiometric composition and chalcopyrite structure with dominant (112) orientation. Nanostructured CIGS exhibits excellent photoactivity with a photocurrent density of 4.31 mA/cm2 at −0.13 V vs RHE in a liquid junction, which is highest for a bare CIGS film and is attributable to its inherent high interface area and better charge transport properties compared to planar films. The ability to produce such efficient nanostructures using an economic, scalable, sustainable, and eco-friendly approach can considerably reduce fabrication costs compared with existing high-temperature bulk material preparation methods." @default.
W2890530168 created "2018-09-27" @default.
W2890530168 creator A5014557405 @default.
W2890530168 creator A5036204985 @default.
W2890530168 creator A5039018976 @default.
W2890530168 creator A5045400721 @default.
W2890530168 date "2018-09-20" @default.
W2890530168 modified "2023-10-15" @default.
W2890530168 title "Cu(In,Ga)Se<sub>2</sub> Films with Branched Nanorod Architectures Fabricated by Economic and Environmentally Friendly Pulse-Reverse Electrodeposition Route" @default.
W2890530168 cites W1553846593 @default.
W2890530168 cites W1590304507 @default.
W2890530168 cites W1625072595 @default.
W2890530168 cites W1987751466 @default.
W2890530168 cites W1991886420 @default.
W2890530168 cites W2001023324 @default.
W2890530168 cites W2003041187 @default.
W2890530168 cites W2006495877 @default.
W2890530168 cites W2011309287 @default.
W2890530168 cites W2014497437 @default.
W2890530168 cites W2020644239 @default.
W2890530168 cites W2031332021 @default.
W2890530168 cites W2054909009 @default.
W2890530168 cites W2056519564 @default.
W2890530168 cites W2059364054 @default.
W2890530168 cites W2066579083 @default.
W2890530168 cites W2067618360 @default.
W2890530168 cites W2068544498 @default.
W2890530168 cites W2069936011 @default.
W2890530168 cites W2082364374 @default.
W2890530168 cites W2086688776 @default.
W2890530168 cites W2087287264 @default.
W2890530168 cites W2087605450 @default.
W2890530168 cites W2090560467 @default.
W2890530168 cites W2093100446 @default.
W2890530168 cites W2094722654 @default.
W2890530168 cites W2106475800 @default.
W2890530168 cites W2117939049 @default.
W2890530168 cites W2119298972 @default.
W2890530168 cites W2131449268 @default.
W2890530168 cites W2131512622 @default.
W2890530168 cites W2132921035 @default.
W2890530168 cites W2134380727 @default.
W2890530168 cites W2149156429 @default.
W2890530168 cites W2172210719 @default.
W2890530168 cites W2190119931 @default.
W2890530168 cites W2198159727 @default.
W2890530168 cites W2211030575 @default.
W2890530168 cites W2261849934 @default.
W2890530168 cites W2438345833 @default.
W2890530168 cites W2471995844 @default.
W2890530168 cites W2495665031 @default.
W2890530168 cites W2555630896 @default.
W2890530168 cites W2562157179 @default.
W2890530168 cites W2607112430 @default.
W2890530168 cites W2607323963 @default.
W2890530168 cites W2619216021 @default.
W2890530168 cites W2790980696 @default.
W2890530168 cites W2791779454 @default.
W2890530168 cites W2796258538 @default.
W2890530168 doi "https://doi.org/10.1021/acssuschemeng.8b01840" @default.
W2890530168 hasPublicationYear "2018" @default.
W2890530168 type Work @default.
W2890530168 sameAs 2890530168 @default.
W2890530168 citedByCount "8" @default.
W2890530168 countsByYear W28905301682018 @default.
W2890530168 countsByYear W28905301682019 @default.
W2890530168 countsByYear W28905301682020 @default.
W2890530168 countsByYear W28905301682021 @default.
W2890530168 countsByYear W28905301682022 @default.
W2890530168 crossrefType "journal-article" @default.
W2890530168 hasAuthorship W2890530168A5014557405 @default.
W2890530168 hasAuthorship W2890530168A5036204985 @default.
W2890530168 hasAuthorship W2890530168A5039018976 @default.
W2890530168 hasAuthorship W2890530168A5045400721 @default.
W2890530168 hasConcept C126201875 @default.
W2890530168 hasConcept C127413603 @default.
W2890530168 hasConcept C136525101 @default.
W2890530168 hasConcept C142724271 @default.
W2890530168 hasConcept C171250308 @default.
W2890530168 hasConcept C171534860 @default.
W2890530168 hasConcept C181966813 @default.
W2890530168 hasConcept C186187911 @default.
W2890530168 hasConcept C18903297 @default.
W2890530168 hasConcept C19067145 @default.
W2890530168 hasConcept C191716631 @default.
W2890530168 hasConcept C191897082 @default.
W2890530168 hasConcept C192562407 @default.
W2890530168 hasConcept C204787440 @default.
W2890530168 hasConcept C2777855556 @default.
W2890530168 hasConcept C2779845233 @default.
W2890530168 hasConcept C2780824857 @default.
W2890530168 hasConcept C42360764 @default.
W2890530168 hasConcept C49040817 @default.
W2890530168 hasConcept C71924100 @default.
W2890530168 hasConcept C86803240 @default.
W2890530168 hasConceptScore W2890530168C126201875 @default.
W2890530168 hasConceptScore W2890530168C127413603 @default.
W2890530168 hasConceptScore W2890530168C136525101 @default.