SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308558734> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W4308558734 endingPage "167902" @default.
W4308558734 startingPage "167902" @default.
W4308558734 abstract "Functionalized MoS2 nanosheets are of significant academic and commercial interest due to their use in electronic and photonic applications as transistors, electrocatalysts, electrodes, and nonlinear optical materials. However, MoS2 nanosheets exhibit low reactivity and poor dispersibility in common solvents, which significantly hinders their functionalization with optoelectronic groups and their downstream applications. Herein, a porphyrin covalently functionalized MoS2 nanohybrid (MoS2-Por) is synthesized by a mild thiol−ene “click” reaction. Optical studies demonstrate that a dispersion of the MoS2-Por nanohybrid in N,N-dimethylformamide (DMF) exhibits reverse saturable absorption (RSA) behavior to femtosecond pulsed laser irradiation at 800 nm, in contrast to the saturable absorption (SA) displayed by MoS2 nanosheets. This significant switch likely stems from enhanced two-photon absorption (TPA) in the MoS2 nanosheets, which may be ascribed to efficient charge transfer in the excited-state of the MoS2-Por nanohybrid. Polymethyl methacrylate (PMMA) films MoS2-Por/PMMA exhibit a low optical limiting threshold of 1.2 mJ cm-2 (18.3 GW cm-2), indicating great potential as an optical limiter. The MoS2-Por nanohybrid also exhibits stronger self-focusing than MoS2 nanosheets towards femtosecond pulses at 800 nm due to the increased free-carries concentration arising from the improved TPA. These observations demonstrate that the MoS2-Por nanohybrid is an excellent candidate for optical limiting in the infrared region towards femtosecond pulses, and shed new light on the construction of covalently functionalized MoS2 nanohybrids for tuning nonlinear optical properties and broadening application scope." @default.
W4308558734 created "2022-11-12" @default.
W4308558734 creator A5008099421 @default.
W4308558734 creator A5026896143 @default.
W4308558734 creator A5027373179 @default.
W4308558734 creator A5040999162 @default.
W4308558734 creator A5056380087 @default.
W4308558734 creator A5065089925 @default.
W4308558734 creator A5065859286 @default.
W4308558734 creator A5080686007 @default.
W4308558734 creator A5082477527 @default.
W4308558734 creator A5089393049 @default.
W4308558734 date "2023-02-01" @default.
W4308558734 modified "2023-10-16" @default.
W4308558734 title "Porphyrin covalently functionalized MoS2 nanosheets: “Click” synthesis and tunable nonlinear absorption" @default.
W4308558734 cites W1799649724 @default.
W4308558734 cites W1882190578 @default.
W4308558734 cites W1961840087 @default.
W4308558734 cites W1981146785 @default.
W4308558734 cites W1986098168 @default.
W4308558734 cites W1995302127 @default.
W4308558734 cites W2007771222 @default.
W4308558734 cites W2011899447 @default.
W4308558734 cites W2015727072 @default.
W4308558734 cites W2025472145 @default.
W4308558734 cites W2029221262 @default.
W4308558734 cites W2030572740 @default.
W4308558734 cites W2040077883 @default.
W4308558734 cites W2046433896 @default.
W4308558734 cites W2046464075 @default.
W4308558734 cites W2048610167 @default.
W4308558734 cites W2056488719 @default.
W4308558734 cites W2061182751 @default.
W4308558734 cites W2063929766 @default.
W4308558734 cites W2097578667 @default.
W4308558734 cites W2098269095 @default.
W4308558734 cites W2102122128 @default.
W4308558734 cites W2104001920 @default.
W4308558734 cites W2136906247 @default.
W4308558734 cites W2137618050 @default.
W4308558734 cites W2194938977 @default.
W4308558734 cites W2221637804 @default.
W4308558734 cites W2264248211 @default.
W4308558734 cites W2288615221 @default.
W4308558734 cites W2321770094 @default.
W4308558734 cites W2330284495 @default.
W4308558734 cites W2331708333 @default.
W4308558734 cites W2504849335 @default.
W4308558734 cites W2515866299 @default.
W4308558734 cites W2531670575 @default.
W4308558734 cites W2618234925 @default.
W4308558734 cites W2751610623 @default.
W4308558734 cites W2766188503 @default.
W4308558734 cites W2781898625 @default.
W4308558734 cites W2788496732 @default.
W4308558734 cites W2791367140 @default.
W4308558734 cites W2794276926 @default.
W4308558734 cites W2811086229 @default.
W4308558734 cites W2884085124 @default.
W4308558734 cites W2885674824 @default.
W4308558734 cites W2890882564 @default.
W4308558734 cites W2896319855 @default.
W4308558734 cites W2896484031 @default.
W4308558734 cites W2897230814 @default.
W4308558734 cites W2898047753 @default.
W4308558734 cites W2915021037 @default.
W4308558734 cites W2915305184 @default.
W4308558734 cites W2979908535 @default.
W4308558734 cites W2981336327 @default.
W4308558734 cites W2990600336 @default.
W4308558734 cites W2995593789 @default.
W4308558734 cites W3001483330 @default.
W4308558734 cites W3008074565 @default.
W4308558734 cites W3009533910 @default.
W4308558734 cites W3037689886 @default.
W4308558734 cites W3038655796 @default.
W4308558734 cites W3045712729 @default.
W4308558734 cites W3048272999 @default.
W4308558734 cites W3090118031 @default.
W4308558734 cites W3093101166 @default.
W4308558734 cites W3101929953 @default.
W4308558734 cites W3106403038 @default.
W4308558734 cites W3154181931 @default.
W4308558734 cites W3158899823 @default.
W4308558734 cites W3192390515 @default.
W4308558734 cites W3208030463 @default.
W4308558734 cites W3215575865 @default.
W4308558734 doi "https://doi.org/10.1016/j.jallcom.2022.167902" @default.
W4308558734 hasPublicationYear "2023" @default.
W4308558734 type Work @default.
W4308558734 citedByCount "0" @default.
W4308558734 crossrefType "journal-article" @default.
W4308558734 hasAuthorship W4308558734A5008099421 @default.
W4308558734 hasAuthorship W4308558734A5026896143 @default.
W4308558734 hasAuthorship W4308558734A5027373179 @default.
W4308558734 hasAuthorship W4308558734A5040999162 @default.
W4308558734 hasAuthorship W4308558734A5056380087 @default.
W4308558734 hasAuthorship W4308558734A5065089925 @default.