SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2807352246> ?p ?o ?g. }

Showing items 1 to 100 of ±170 with 100 items per page.

W2807352246 endingPage "1800987" @default.
W2807352246 startingPage "1800987" @default.
W2807352246 abstract "Electromagnetic energy radiation is becoming a health-killer of living bodies, especially around industrial transformer substation and electricity pylon. Harvesting, converting, and storing waste energy for recycling are considered the ideal ways to control electromagnetic radiation. However, heat-generation and temperature-rising with performance degradation remain big problems. Herein, graphene-silica xerogel is dissected hierarchically from functions to genes, thermally driven relaxation and charge transport, experimentally and theoretically, demonstrating a competitive synergy on energy conversion. A generic approach of material genes sequencing is proposed, tactfully transforming the negative effects of heat energy to superiority for switching self-powered and self-circulated electromagnetic devices, beneficial for waste energy harvesting, conversion, and storage. Graphene networks with well-sequencing genes (w = Pc /Pp > 0.2) can serve as nanogenerators, thermally promoting electromagnetic wave absorption by 250%, with broadened bandwidth covering the whole investigated frequency. This finding of nonionic energy conversion opens up an unexpected horizon for converting, storing, and reusing waste electromagnetic energy, providing the most promising way for governing electromagnetic pollution with self-powered and self-circulated electromagnetic devices." @default.
W2807352246 created "2018-06-13" @default.
W2807352246 creator A5022721559 @default.
W2807352246 creator A5029619272 @default.
W2807352246 creator A5070827447 @default.
W2807352246 creator A5072568887 @default.
W2807352246 creator A5075449621 @default.
W2807352246 creator A5087210422 @default.
W2807352246 date "2018-06-07" @default.
W2807352246 modified "2023-10-17" @default.
W2807352246 title "Thermally Driven Transport and Relaxation Switching Self-Powered Electromagnetic Energy Conversion" @default.
W2807352246 cites W1916514646 @default.
W2807352246 cites W1970323461 @default.
W2807352246 cites W1972651820 @default.
W2807352246 cites W1973926400 @default.
W2807352246 cites W1974486215 @default.
W2807352246 cites W1976154689 @default.
W2807352246 cites W1976452436 @default.
W2807352246 cites W1987912354 @default.
W2807352246 cites W1996218409 @default.
W2807352246 cites W2000726919 @default.
W2807352246 cites W2002962459 @default.
W2807352246 cites W2017120884 @default.
W2807352246 cites W2017547231 @default.
W2807352246 cites W2018790659 @default.
W2807352246 cites W2028267074 @default.
W2807352246 cites W2031340771 @default.
W2807352246 cites W2032451332 @default.
W2807352246 cites W2036472310 @default.
W2807352246 cites W2046313049 @default.
W2807352246 cites W2046850845 @default.
W2807352246 cites W2059727332 @default.
W2807352246 cites W2066879133 @default.
W2807352246 cites W2067679872 @default.
W2807352246 cites W2069691805 @default.
W2807352246 cites W2072923279 @default.
W2807352246 cites W2074684620 @default.
W2807352246 cites W2077888722 @default.
W2807352246 cites W2077926445 @default.
W2807352246 cites W2079979692 @default.
W2807352246 cites W2089491679 @default.
W2807352246 cites W2090375194 @default.
W2807352246 cites W2092902719 @default.
W2807352246 cites W2093630040 @default.
W2807352246 cites W2093831249 @default.
W2807352246 cites W2099848957 @default.
W2807352246 cites W2120225153 @default.
W2807352246 cites W2122407779 @default.
W2807352246 cites W2123991186 @default.
W2807352246 cites W2125915108 @default.
W2807352246 cites W2131753918 @default.
W2807352246 cites W2140396577 @default.
W2807352246 cites W2141101385 @default.
W2807352246 cites W2142492243 @default.
W2807352246 cites W2143578098 @default.
W2807352246 cites W2146448604 @default.
W2807352246 cites W2159302814 @default.
W2807352246 cites W2160874474 @default.
W2807352246 cites W2171212039 @default.
W2807352246 cites W2178332980 @default.
W2807352246 cites W2190096558 @default.
W2807352246 cites W2226291091 @default.
W2807352246 cites W2234487923 @default.
W2807352246 cites W2291856312 @default.
W2807352246 cites W2315047087 @default.
W2807352246 cites W2317728381 @default.
W2807352246 cites W2325609638 @default.
W2807352246 cites W2510292900 @default.
W2807352246 cites W2551127942 @default.
W2807352246 cites W2558405103 @default.
W2807352246 cites W2560564584 @default.
W2807352246 cites W2561025280 @default.
W2807352246 cites W2575575144 @default.
W2807352246 cites W2583202028 @default.
W2807352246 cites W2588631014 @default.
W2807352246 cites W2588634808 @default.
W2807352246 cites W2594418701 @default.
W2807352246 cites W2604693156 @default.
W2807352246 cites W2617579421 @default.
W2807352246 cites W2617774015 @default.
W2807352246 cites W2624704854 @default.
W2807352246 cites W2734952696 @default.
W2807352246 cites W2739548220 @default.
W2807352246 cites W2745821338 @default.
W2807352246 cites W2768760474 @default.
W2807352246 cites W2769631912 @default.
W2807352246 cites W2769670864 @default.
W2807352246 cites W2773162257 @default.
W2807352246 cites W2774318212 @default.
W2807352246 cites W2774958401 @default.
W2807352246 cites W2782301885 @default.
W2807352246 cites W2783662440 @default.
W2807352246 cites W3102641627 @default.
W2807352246 cites W827067277 @default.
W2807352246 cites W2015550711 @default.
W2807352246 doi "https://doi.org/10.1002/smll.201800987" @default.
W2807352246 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29882284" @default.
W2807352246 hasPublicationYear "2018" @default.