SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4280492267> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W4280492267 endingPage "23636" @default.
W4280492267 startingPage "23624" @default.
W4280492267 abstract "Optically induced magnetic resonances (OMRs) are highly tunable scattering states that cannot be reproduced in systems that only support electric resonances, such as in metals, lossy, or low-index materials. Despite offering unique scattering and coupling behavior, the study of OMRs in thin films has been limited by synthesis and simulation constraints. We report on the absorption and scattering response of OMR-based thin films composed of monodisperse crystalline silicon nanoparticles synthesized using a scalable nonthermal plasma growth technique and tractable simulation framework. The synthesis is solvent and ligand free, ensuring minimal contamination, and crystalline particles form with high yield and a narrow size distribution at close to room temperature. Using a scalable high-throughput deposition method, we deposit random particle films, without the need of a solid host matrix, showing near complete blackbody absorption at the collective OMR. This is achieved using 70% less material than an optimized antireflective-coated crystalline silicon thin film. The film exhibits strongly directional forward scattering with very low reflectivity, thus giving rise to angle- and polarization-insensitive antireflection properties across the visible spectrum. We find that, while commonly used effective medium models cannot capture the optical response, a modified effective medium accounting for multipole resonances and interparticle coupling shows excellent agreement with experiment. The effective permittivity and permeability are written in a mode and cluster resolved form, providing useful insight into how individual resonances and nanoparticle clusters affect the overall film response. Electric and magnetic-mode coupling show dramatically different behavior, resulting in uniquely different spectral broadening." @default.
W4280492267 created "2022-05-22" @default.
W4280492267 creator A5000398736 @default.
W4280492267 creator A5049747567 @default.
W4280492267 creator A5071913869 @default.
W4280492267 creator A5079355304 @default.
W4280492267 creator A5079969926 @default.
W4280492267 creator A5082887836 @default.
W4280492267 date "2022-05-12" @default.
W4280492267 modified "2023-10-18" @default.
W4280492267 title "Broadband, Angle- and Polarization-Invariant Antireflective and Absorbing Films by a Scalable Synthesis of Monodisperse Silicon Nanoparticles" @default.
W4280492267 cites W1648144830 @default.
W4280492267 cites W1667702574 @default.
W4280492267 cites W167561103 @default.
W4280492267 cites W1966683204 @default.
W4280492267 cites W1968714442 @default.
W4280492267 cites W1969260872 @default.
W4280492267 cites W1974498869 @default.
W4280492267 cites W1976370585 @default.
W4280492267 cites W1979914837 @default.
W4280492267 cites W1982499272 @default.
W4280492267 cites W1991521462 @default.
W4280492267 cites W2000312409 @default.
W4280492267 cites W2007461699 @default.
W4280492267 cites W2008391403 @default.
W4280492267 cites W2010334703 @default.
W4280492267 cites W2017633570 @default.
W4280492267 cites W2024547535 @default.
W4280492267 cites W2028072523 @default.
W4280492267 cites W2031301670 @default.
W4280492267 cites W2038530456 @default.
W4280492267 cites W2043088168 @default.
W4280492267 cites W2047875312 @default.
W4280492267 cites W2048225022 @default.
W4280492267 cites W2055862209 @default.
W4280492267 cites W2057525163 @default.
W4280492267 cites W2058493697 @default.
W4280492267 cites W2061048358 @default.
W4280492267 cites W2061627997 @default.
W4280492267 cites W2061863798 @default.
W4280492267 cites W2065609786 @default.
W4280492267 cites W2067969923 @default.
W4280492267 cites W2078960885 @default.
W4280492267 cites W2079911006 @default.
W4280492267 cites W2082065455 @default.
W4280492267 cites W2083273676 @default.
W4280492267 cites W2085723828 @default.
W4280492267 cites W2089458569 @default.
W4280492267 cites W2097809693 @default.
W4280492267 cites W2121798108 @default.
W4280492267 cites W2124255451 @default.
W4280492267 cites W2128950819 @default.
W4280492267 cites W2132438369 @default.
W4280492267 cites W2140861707 @default.
W4280492267 cites W2155963579 @default.
W4280492267 cites W2164556855 @default.
W4280492267 cites W2313524346 @default.
W4280492267 cites W2321583042 @default.
W4280492267 cites W2410624667 @default.
W4280492267 cites W2511453038 @default.
W4280492267 cites W2516050867 @default.
W4280492267 cites W2516705101 @default.
W4280492267 cites W2564564896 @default.
W4280492267 cites W2565837505 @default.
W4280492267 cites W2586297008 @default.
W4280492267 cites W2615161519 @default.
W4280492267 cites W2766477032 @default.
W4280492267 cites W2771051964 @default.
W4280492267 cites W2782638258 @default.
W4280492267 cites W2784419566 @default.
W4280492267 cites W2805571060 @default.
W4280492267 cites W2885926334 @default.
W4280492267 cites W2890472354 @default.
W4280492267 cites W2906377458 @default.
W4280492267 cites W2977474616 @default.
W4280492267 cites W3037731255 @default.
W4280492267 cites W3037734545 @default.
W4280492267 cites W3098921056 @default.
W4280492267 cites W3100793076 @default.
W4280492267 cites W3102357845 @default.
W4280492267 cites W3102872497 @default.
W4280492267 cites W3105117921 @default.
W4280492267 cites W3105366748 @default.
W4280492267 cites W3106152020 @default.
W4280492267 cites W3153203327 @default.
W4280492267 cites W3161819251 @default.
W4280492267 cites W3165213329 @default.
W4280492267 cites W4213431075 @default.
W4280492267 cites W4235244715 @default.
W4280492267 cites W4237421466 @default.
W4280492267 cites W651842448 @default.
W4280492267 doi "https://doi.org/10.1021/acsami.2c03263" @default.
W4280492267 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35549027" @default.
W4280492267 hasPublicationYear "2022" @default.
W4280492267 type Work @default.
W4280492267 citedByCount "2" @default.
W4280492267 countsByYear W42804922672023 @default.
W4280492267 crossrefType "journal-article" @default.