SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4285087820> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W4285087820 endingPage "14206" @default.
W4285087820 startingPage "14195" @default.
W4285087820 abstract "As an emerging therapeutic gas, hydrogen (H2) is gifted with excellent biosafety, high tissue permeability, and radical-trapping capacity and is extensively considered as a highly promising antioxidant in clinics. However, a facile and effective strategy of H2 production for major inflammatory disease treatments is still lacking. In this study, by a facile wet-chemical exfoliation synthesis, a hydrogen-terminated silicon nanosheet (H-silicene) has been synthesized, which can favorably react with environmental water to generate H2 rapidly and continuously without any external energy input. Furthermore, theoretical calculations were employed to reveal the mechanism of enhanced H2 generation efficacy of H-silicene nanosheets. The as-synthesized H-silicene has been explored as a flexible hydrogen gas generator for efficient antioxidative stress application for the first time, which highlights a promising prospect of this two-dimensional H-silicene nanomaterial for acute inflammatory treatments by on-demand H2 production-enabled reactive oxygen species scavenging. This study provides a novel and efficient modality for nanomaterial-mediated H2 therapy." @default.
W4285087820 created "2022-07-14" @default.
W4285087820 creator A5015102287 @default.
W4285087820 creator A5015122430 @default.
W4285087820 creator A5017825677 @default.
W4285087820 creator A5047121709 @default.
W4285087820 creator A5054620611 @default.
W4285087820 creator A5055849155 @default.
W4285087820 creator A5064372268 @default.
W4285087820 creator A5066691096 @default.
W4285087820 creator A5075877965 @default.
W4285087820 creator A5075919382 @default.
W4285087820 creator A5085739377 @default.
W4285087820 date "2022-07-13" @default.
W4285087820 modified "2023-10-16" @default.
W4285087820 title "Water-Enabled H<sub>2</sub> Generation from Hydrogenated Silicon Nanosheets for Efficient Anti-Inflammation" @default.
W4285087820 cites W1661025176 @default.
W4285087820 cites W1965878626 @default.
W4285087820 cites W1968694827 @default.
W4285087820 cites W1980594769 @default.
W4285087820 cites W1989500990 @default.
W4285087820 cites W1989987141 @default.
W4285087820 cites W1991952977 @default.
W4285087820 cites W2003202139 @default.
W4285087820 cites W2012321828 @default.
W4285087820 cites W2017097251 @default.
W4285087820 cites W2031591717 @default.
W4285087820 cites W2038234825 @default.
W4285087820 cites W2048321692 @default.
W4285087820 cites W2052961210 @default.
W4285087820 cites W2053277989 @default.
W4285087820 cites W2077113765 @default.
W4285087820 cites W2078331411 @default.
W4285087820 cites W2138846785 @default.
W4285087820 cites W2149142713 @default.
W4285087820 cites W2154903153 @default.
W4285087820 cites W2169657429 @default.
W4285087820 cites W2334634859 @default.
W4285087820 cites W2419477849 @default.
W4285087820 cites W2460408415 @default.
W4285087820 cites W2615039571 @default.
W4285087820 cites W2751462512 @default.
W4285087820 cites W2787460561 @default.
W4285087820 cites W2808863657 @default.
W4285087820 cites W2884234140 @default.
W4285087820 cites W2896227976 @default.
W4285087820 cites W2914242052 @default.
W4285087820 cites W2923769154 @default.
W4285087820 cites W2939714203 @default.
W4285087820 cites W2940469323 @default.
W4285087820 cites W2962938520 @default.
W4285087820 cites W2965712998 @default.
W4285087820 cites W2970625520 @default.
W4285087820 cites W2982516344 @default.
W4285087820 cites W3001697115 @default.
W4285087820 cites W3001815314 @default.
W4285087820 cites W3084452674 @default.
W4285087820 cites W3111364251 @default.
W4285087820 cites W3127264648 @default.
W4285087820 cites W3133248403 @default.
W4285087820 cites W3149763323 @default.
W4285087820 cites W3182276403 @default.
W4285087820 cites W3186766097 @default.
W4285087820 cites W3187349512 @default.
W4285087820 cites W3203783830 @default.
W4285087820 cites W4200132248 @default.
W4285087820 cites W4200148939 @default.
W4285087820 cites W4200189075 @default.
W4285087820 cites W4234317413 @default.
W4285087820 cites W748993927 @default.
W4285087820 doi "https://doi.org/10.1021/jacs.2c04412" @default.
W4285087820 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35830228" @default.
W4285087820 hasPublicationYear "2022" @default.
W4285087820 type Work @default.
W4285087820 citedByCount "11" @default.
W4285087820 countsByYear W42850878202022 @default.
W4285087820 countsByYear W42850878202023 @default.
W4285087820 crossrefType "journal-article" @default.
W4285087820 hasAuthorship W4285087820A5015102287 @default.
W4285087820 hasAuthorship W4285087820A5015122430 @default.
W4285087820 hasAuthorship W4285087820A5017825677 @default.
W4285087820 hasAuthorship W4285087820A5047121709 @default.
W4285087820 hasAuthorship W4285087820A5054620611 @default.
W4285087820 hasAuthorship W4285087820A5055849155 @default.
W4285087820 hasAuthorship W4285087820A5064372268 @default.
W4285087820 hasAuthorship W4285087820A5066691096 @default.
W4285087820 hasAuthorship W4285087820A5075877965 @default.
W4285087820 hasAuthorship W4285087820A5075919382 @default.
W4285087820 hasAuthorship W4285087820A5085739377 @default.
W4285087820 hasConcept C129162502 @default.
W4285087820 hasConcept C138631740 @default.
W4285087820 hasConcept C171250308 @default.
W4285087820 hasConcept C178790620 @default.
W4285087820 hasConcept C185592680 @default.
W4285087820 hasConcept C192562407 @default.
W4285087820 hasConcept C202189072 @default.
W4285087820 hasConcept C2778602974 @default.
W4285087820 hasConcept C30080830 @default.