SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2516100448> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2516100448 endingPage "8880" @default.
W2516100448 startingPage "8871" @default.
W2516100448 abstract "When the coordination sites of ligands were shifted, the solvothermal reactions of four positional isomeric asymmetrical pyridyldicarboxylatic acids with Cd(NO3)2 generated four new coordination polymers, [Cd(L1)(DMF)3]·DMF·H2O (1), [H2N(CH3)2]2[Cd(L2)2]·3DMF·H2O (2), [Cd(L3)(H2O)2] (3), and [Cd(L4)]·1.5DMF (4), where DMF = N,N-dimethylformamide, H2L1 = 2-(3'-carboxylphenyl)isonicotinic acid, H2L2 = 2-(4'-carboxylphenyl)isonicotinic acid, H2L3 = 5-(3'-carboxylphenyl)nicotic acid, and H2L4 = 2-(3'-pyridyl)terephthalic acid. 1 shows a rare 2D fabric structure. 2 discloses a grid-layer structure with heterochiral helical chains and in which three sets of layers stack in different directions, affording an unprecedented 2D + 2D + 2D → 3D polycatenating framework with 3D intersecting porous systems. 3 also displays a 2D layer possessing strong intralayer π···π interactions and interlayer hydrogen bonds. 4 contains a rare Cd2(COO)4 paddle-wheel unit and forms a 3D framework with 1D open channels. The carboxyl and pyridyl groups of the positional isomeric H2L1-H2L4 ligands show distinct bridging fashions, which leads to the production of versatile architectures of 1-4, and their effects on the crystal structures are discussed. 1-4 reveal solid-state photoluminescence stemming from intraligand charge transfer. 2 and 4 show high selectivity for CO2 over CH4 but with different CO2 adsorption enthalpies. Grand canonical Monte Carlo simulations identified the multiple adsorption sites in 2 for CO2." @default.
W2516100448 created "2016-09-16" @default.
W2516100448 creator A5003775869 @default.
W2516100448 creator A5023372230 @default.
W2516100448 creator A5033539820 @default.
W2516100448 creator A5050804986 @default.
W2516100448 creator A5082723505 @default.
W2516100448 creator A5090815103 @default.
W2516100448 date "2016-08-11" @default.
W2516100448 modified "2023-10-15" @default.
W2516100448 title "Structural Diversity of Cadmium(II) Coordination Polymers Induced by Tuning the Coordination Sites of Isomeric Ligands" @default.
W2516100448 cites W1867777162 @default.
W2516100448 cites W1934740901 @default.
W2516100448 cites W1946475789 @default.
W2516100448 cites W1963941130 @default.
W2516100448 cites W1966426333 @default.
W2516100448 cites W1971146574 @default.
W2516100448 cites W1974105846 @default.
W2516100448 cites W1984090217 @default.
W2516100448 cites W1985568020 @default.
W2516100448 cites W1985722345 @default.
W2516100448 cites W1991188873 @default.
W2516100448 cites W1993408779 @default.
W2516100448 cites W1994877322 @default.
W2516100448 cites W1996369650 @default.
W2516100448 cites W1998881441 @default.
W2516100448 cites W2000907646 @default.
W2516100448 cites W2002348387 @default.
W2516100448 cites W2009810706 @default.
W2516100448 cites W2016327668 @default.
W2516100448 cites W2017040508 @default.
W2516100448 cites W2018082926 @default.
W2516100448 cites W2020370296 @default.
W2516100448 cites W2022640877 @default.
W2516100448 cites W2025994858 @default.
W2516100448 cites W2027174197 @default.
W2516100448 cites W2027935606 @default.
W2516100448 cites W2031953199 @default.
W2516100448 cites W2032174665 @default.
W2516100448 cites W2038102594 @default.
W2516100448 cites W2038532237 @default.
W2516100448 cites W2038936023 @default.
W2516100448 cites W2042397184 @default.
W2516100448 cites W2044658129 @default.
W2516100448 cites W2045907377 @default.
W2516100448 cites W2048358470 @default.
W2516100448 cites W2057331590 @default.
W2516100448 cites W2057587932 @default.
W2516100448 cites W2080698240 @default.
W2516100448 cites W2087625036 @default.
W2516100448 cites W2089296725 @default.
W2516100448 cites W2089848237 @default.
W2516100448 cites W2091161882 @default.
W2516100448 cites W2091196652 @default.
W2516100448 cites W2091321806 @default.
W2516100448 cites W2094774149 @default.
W2516100448 cites W2098292174 @default.
W2516100448 cites W2098428778 @default.
W2516100448 cites W2117280789 @default.
W2516100448 cites W2117988517 @default.
W2516100448 cites W2120758096 @default.
W2516100448 cites W2126900068 @default.
W2516100448 cites W2130283800 @default.
W2516100448 cites W2131988676 @default.
W2516100448 cites W2132764371 @default.
W2516100448 cites W2142358554 @default.
W2516100448 cites W2147412194 @default.
W2516100448 cites W2149366348 @default.
W2516100448 cites W2157516934 @default.
W2516100448 cites W2166689829 @default.
W2516100448 cites W2167742169 @default.
W2516100448 cites W2173917033 @default.
W2516100448 cites W2237205960 @default.
W2516100448 cites W2247326082 @default.
W2516100448 cites W2278300858 @default.
W2516100448 cites W2301396103 @default.
W2516100448 cites W2304738214 @default.
W2516100448 cites W2318273592 @default.
W2516100448 cites W2321128772 @default.
W2516100448 cites W2322699615 @default.
W2516100448 cites W2322803251 @default.
W2516100448 cites W2322806354 @default.
W2516100448 cites W2325247776 @default.
W2516100448 cites W2325544855 @default.
W2516100448 cites W2327217169 @default.
W2516100448 cites W2327650755 @default.
W2516100448 cites W2329036690 @default.
W2516100448 cites W2335043529 @default.
W2516100448 cites W2335061220 @default.
W2516100448 cites W2349861377 @default.
W2516100448 cites W2418080554 @default.
W2516100448 cites W2474338891 @default.
W2516100448 cites W2951135810 @default.
W2516100448 doi "https://doi.org/10.1021/acs.inorgchem.6b01416" @default.
W2516100448 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27513092" @default.
W2516100448 hasPublicationYear "2016" @default.
W2516100448 type Work @default.
W2516100448 sameAs 2516100448 @default.