SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2753328286> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2753328286 endingPage "266" @default.
W2753328286 startingPage "266" @default.
W2753328286 abstract "It is time for industry to pay a serious heed to the application and quality-dependent research on the most important solution growth methods for ZnO, namely, aqueous chemical growth (ACG) and microwave-assisted growth (MAG) methods. This study proffers a critical analysis on how the defect density and formation behavior of ZnO nanostructures (ZNSs) are growth method-dependent. Both antithetical and facile methods are exploited to control the ZnO defect density and the growth mechanism. In this context, the growth of ZnO nanorods (ZNRs), nanoflowers, and nanotubes (ZNTs) are considered. The aforementioned growth methods directly stimulate the nanostructure crystal growth and, depending upon the defect density, ZNSs show different trends in structural, optical, etching, and conductive properties. The defect density of MAG ZNRs is the least because of an ample amount of thermal energy catered by high-power microwaves to the atoms to grow on appropriate crystallographic planes, which is not the case in faulty convective ACG ZNSs. Defect-centric etching of ZNRs into ZNTs is also probed and methodological constraints are proposed. ZNS optical properties are different in the visible region, which are quite peculiar, but outstanding for ZNRs. Hall effect measurements illustrate incongruent conductive trends in both samples." @default.
W2753328286 created "2017-09-15" @default.
W2753328286 creator A5005647960 @default.
W2753328286 creator A5019385261 @default.
W2753328286 creator A5063421282 @default.
W2753328286 creator A5084056592 @default.
W2753328286 date "2017-09-10" @default.
W2753328286 modified "2023-09-26" @default.
W2753328286 title "Growth Method-Dependent and Defect Density-Oriented Structural, Optical, Conductive, and Physical Properties of Solution-Grown ZnO Nanostructures" @default.
W2753328286 cites W1495224126 @default.
W2753328286 cites W1963771959 @default.
W2753328286 cites W1964381074 @default.
W2753328286 cites W1965142452 @default.
W2753328286 cites W1965278299 @default.
W2753328286 cites W1968978908 @default.
W2753328286 cites W1969619515 @default.
W2753328286 cites W1971301800 @default.
W2753328286 cites W1979945267 @default.
W2753328286 cites W1983191218 @default.
W2753328286 cites W1984580252 @default.
W2753328286 cites W1985186984 @default.
W2753328286 cites W1993296587 @default.
W2753328286 cites W1996784626 @default.
W2753328286 cites W2001190868 @default.
W2753328286 cites W2002093212 @default.
W2753328286 cites W2005524337 @default.
W2753328286 cites W2007077311 @default.
W2753328286 cites W2007570106 @default.
W2753328286 cites W2012638707 @default.
W2753328286 cites W2015599194 @default.
W2753328286 cites W2018719371 @default.
W2753328286 cites W2021256397 @default.
W2753328286 cites W2028717449 @default.
W2753328286 cites W2038936542 @default.
W2753328286 cites W2041424753 @default.
W2753328286 cites W2053753589 @default.
W2753328286 cites W2057816247 @default.
W2753328286 cites W2065866545 @default.
W2753328286 cites W2067706202 @default.
W2753328286 cites W2068811118 @default.
W2753328286 cites W2069185349 @default.
W2753328286 cites W2069415778 @default.
W2753328286 cites W2070408801 @default.
W2753328286 cites W2075718071 @default.
W2753328286 cites W2077565069 @default.
W2753328286 cites W2082354437 @default.
W2753328286 cites W2095518010 @default.
W2753328286 cites W2095534151 @default.
W2753328286 cites W2096194088 @default.
W2753328286 cites W2109508965 @default.
W2753328286 cites W2118399042 @default.
W2753328286 cites W2119743355 @default.
W2753328286 cites W2122575775 @default.
W2753328286 cites W2131403420 @default.
W2753328286 cites W2132872911 @default.
W2753328286 cites W2136359657 @default.
W2753328286 cites W2136877847 @default.
W2753328286 cites W2341012312 @default.
W2753328286 cites W2465510887 @default.
W2753328286 cites W2527434094 @default.
W2753328286 cites W4232314910 @default.
W2753328286 cites W4236744087 @default.
W2753328286 doi "https://doi.org/10.3390/nano7090266" @default.
W2753328286 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5618377" @default.
W2753328286 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28891969" @default.
W2753328286 hasPublicationYear "2017" @default.
W2753328286 type Work @default.
W2753328286 sameAs 2753328286 @default.
W2753328286 citedByCount "14" @default.
W2753328286 countsByYear W27533282862017 @default.
W2753328286 countsByYear W27533282862018 @default.
W2753328286 countsByYear W27533282862020 @default.
W2753328286 countsByYear W27533282862021 @default.
W2753328286 countsByYear W27533282862022 @default.
W2753328286 crossrefType "journal-article" @default.
W2753328286 hasAuthorship W2753328286A5005647960 @default.
W2753328286 hasAuthorship W2753328286A5019385261 @default.
W2753328286 hasAuthorship W2753328286A5063421282 @default.
W2753328286 hasAuthorship W2753328286A5084056592 @default.
W2753328286 hasBestOaLocation W27533282861 @default.
W2753328286 hasConcept C100460472 @default.
W2753328286 hasConcept C121332964 @default.
W2753328286 hasConcept C126201875 @default.
W2753328286 hasConcept C127413603 @default.
W2753328286 hasConcept C151730666 @default.
W2753328286 hasConcept C159985019 @default.
W2753328286 hasConcept C171250308 @default.
W2753328286 hasConcept C185592680 @default.
W2753328286 hasConcept C186187911 @default.
W2753328286 hasConcept C192562407 @default.
W2753328286 hasConcept C199360897 @default.
W2753328286 hasConcept C202374169 @default.
W2753328286 hasConcept C26456737 @default.
W2753328286 hasConcept C2779227376 @default.
W2753328286 hasConcept C2779343474 @default.
W2753328286 hasConcept C2781285689 @default.
W2753328286 hasConcept C41008148 @default.
W2753328286 hasConcept C42360764 @default.