SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3198671071> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W3198671071 endingPage "7731" @default.
W3198671071 startingPage "7724" @default.
W3198671071 abstract "The synthesis of metallic transition metal nitrides (TMNs) has traditionally been performed under harsh conditions, which makes it difficult to prepare TMNs with high surface area and porosity due to the grain sintering. Herein, we report a general and rapid (30 s) microwave synthesis method for preparing TMNs with high specific surface area (122.6–141.7 m2 g–1) and porosity (0.29–0.34 cm3 g–1). Novel single-crystal porous WN, Mo2N, and V2N are first prepared by this method, which exhibits strong surface plasmon resonance, photothermal conversion, and surface-enhanced Raman scattering effects. Different from the conventional low-temperature microwave absorbing media such as water and polymers, as new concept absorbing media, hydrated metal oxides and metallic metal oxides are found to have a remarkable high-temperature microwave heating effect and play key roles in the formation of TMNs. The current research results provide a new-concept microwave method for preparing high lattice energy compounds with high specific surface." @default.
W3198671071 created "2021-09-13" @default.
W3198671071 creator A5005121761 @default.
W3198671071 creator A5034136035 @default.
W3198671071 creator A5051409354 @default.
W3198671071 creator A5057636517 @default.
W3198671071 creator A5074105135 @default.
W3198671071 creator A5077134960 @default.
W3198671071 creator A5079845418 @default.
W3198671071 creator A5089497279 @default.
W3198671071 date "2021-09-03" @default.
W3198671071 modified "2023-10-06" @default.
W3198671071 title "General Microwave Route to Single-Crystal Porous Transition Metal Nitrides for Highly Sensitive and Stable Raman Scattering Substrates" @default.
W3198671071 cites W2004285114 @default.
W3198671071 cites W2005084536 @default.
W3198671071 cites W2013412470 @default.
W3198671071 cites W2020814549 @default.
W3198671071 cites W2032507933 @default.
W3198671071 cites W2079954478 @default.
W3198671071 cites W2084460251 @default.
W3198671071 cites W2110066199 @default.
W3198671071 cites W2117165650 @default.
W3198671071 cites W2119236802 @default.
W3198671071 cites W2137129788 @default.
W3198671071 cites W2142904252 @default.
W3198671071 cites W2189084897 @default.
W3198671071 cites W2224580045 @default.
W3198671071 cites W2239712803 @default.
W3198671071 cites W2299637118 @default.
W3198671071 cites W2311446245 @default.
W3198671071 cites W2313086713 @default.
W3198671071 cites W2319016942 @default.
W3198671071 cites W2320535422 @default.
W3198671071 cites W2323065125 @default.
W3198671071 cites W2345404407 @default.
W3198671071 cites W2398356751 @default.
W3198671071 cites W2409975292 @default.
W3198671071 cites W2511555727 @default.
W3198671071 cites W2583896832 @default.
W3198671071 cites W2594039752 @default.
W3198671071 cites W2609022200 @default.
W3198671071 cites W2745698810 @default.
W3198671071 cites W2757876893 @default.
W3198671071 cites W2761458641 @default.
W3198671071 cites W2766541863 @default.
W3198671071 cites W2782740498 @default.
W3198671071 cites W2797445881 @default.
W3198671071 cites W2896374196 @default.
W3198671071 cites W2906006224 @default.
W3198671071 cites W2949840340 @default.
W3198671071 cites W2955792668 @default.
W3198671071 cites W2965716930 @default.
W3198671071 cites W3010514557 @default.
W3198671071 cites W3012277034 @default.
W3198671071 cites W3039011995 @default.
W3198671071 cites W3049677920 @default.
W3198671071 cites W3087783930 @default.
W3198671071 cites W3110238749 @default.
W3198671071 cites W3135630002 @default.
W3198671071 cites W3162942499 @default.
W3198671071 cites W4254204027 @default.
W3198671071 doi "https://doi.org/10.1021/acs.nanolett.1c02541" @default.
W3198671071 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34477392" @default.
W3198671071 hasPublicationYear "2021" @default.
W3198671071 type Work @default.
W3198671071 sameAs 3198671071 @default.
W3198671071 citedByCount "7" @default.
W3198671071 countsByYear W31986710712022 @default.
W3198671071 countsByYear W31986710712023 @default.
W3198671071 crossrefType "journal-article" @default.
W3198671071 hasAuthorship W3198671071A5005121761 @default.
W3198671071 hasAuthorship W3198671071A5034136035 @default.
W3198671071 hasAuthorship W3198671071A5051409354 @default.
W3198671071 hasAuthorship W3198671071A5057636517 @default.
W3198671071 hasAuthorship W3198671071A5074105135 @default.
W3198671071 hasAuthorship W3198671071A5077134960 @default.
W3198671071 hasAuthorship W3198671071A5079845418 @default.
W3198671071 hasAuthorship W3198671071A5089497279 @default.
W3198671071 hasConcept C106773901 @default.
W3198671071 hasConcept C106847996 @default.
W3198671071 hasConcept C120665830 @default.
W3198671071 hasConcept C121332964 @default.
W3198671071 hasConcept C127413603 @default.
W3198671071 hasConcept C155672457 @default.
W3198671071 hasConcept C159985019 @default.
W3198671071 hasConcept C161790260 @default.
W3198671071 hasConcept C169573571 @default.
W3198671071 hasConcept C171250308 @default.
W3198671071 hasConcept C178790620 @default.
W3198671071 hasConcept C182606246 @default.
W3198671071 hasConcept C185592680 @default.
W3198671071 hasConcept C191897082 @default.
W3198671071 hasConcept C192562407 @default.
W3198671071 hasConcept C194760766 @default.
W3198671071 hasConcept C2779227376 @default.
W3198671071 hasConcept C40003534 @default.
W3198671071 hasConcept C42360764 @default.
W3198671071 hasConcept C44838205 @default.