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• W2005641387 endingPage "1866" @default.
• W2005641387 startingPage "1866" @default.
• W2005641387 abstract "In our efforts to tune the structures of AgI complexes by ligand modification, six structurally related ligands: 1,2-bis(triazol-1-ylmethyl)benzene (L1), 1,3-bis(triazol-1-ylmethyl)benzene (L2), 1,4-bis(triazol-1-ylmethyl)benzene (L3), 1,3,5-tri(triazol-1-ylmethyl)-2,4,6-trimethylbenzene (L4), 1,4-bis[3-(2-pyridyl)-pyrazol-1-ylmethyl]naphthalene (L5), and 9,10-bis(benzimidazol-1-ylmethyl)anthracene (L6) have been designed and used to react with AgI salts to form six new complexes: {[Ag2(L1)2](BF4)2(H2O)} (1), [Ag2(L2)(NO3)2]n (2), [Ag(L3)(NO3)]n (3), {[Ag3(L4)2](SiF6)1.5(H2O)3.5} (4), {[Ag2(L5)2](NO3)2(H2O)} (5), and {[Ag2(L6)2](NO3)2(CH3OH)2} (6). All the complexes have been structurally characterized by IR and X-ray diffraction. Structural analyses show that complexes 1, 5, and 6 possess dinuclear structures, which extend to infinite coordination networks linked by Ag⋯N, C–H⋯O, or π–π weak interactions. 2 is a 3D chiral coordination polymer with (10,3)-a topology, and 4 forms a trinuclear cage structure, which further connected by Ag⋯Ag weak interactions to form a 1D supramolecule, while 3 exhibits an infinite 1D chain structure. The structures of complexes 1–6 span from dinuclear, trinuclear, 1D, to 3D network, which indicates that ligands play important roles in the formation of such coordination architectures. Furthermore, the CD spectrum, thermal, and fluorescent properties of the chiral complex 2 have been investigated in the solid state." @default.
• W2005641387 created "2016-06-24" @default.
• W2005641387 creator A5043910112 @default.
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• W2005641387 creator A5083002078 @default.
• W2005641387 date "2008-01-01" @default.
• W2005641387 modified "2023-09-30" @default.
• W2005641387 title "Tuning silver(I) coordination architectures by ligands design: from dinuclear, trinuclear, to 1D and 3D frameworks" @default.
• W2005641387 cites W1689479168 @default.
• W2005641387 cites W1714027332 @default.
• W2005641387 cites W1764239921 @default.
• W2005641387 cites W1936567784 @default.
• W2005641387 cites W1964277385 @default.
• W2005641387 cites W1965829449 @default.
• W2005641387 cites W1969105510 @default.
• W2005641387 cites W1969459843 @default.
• W2005641387 cites W1970599156 @default.
• W2005641387 cites W1972397669 @default.
• W2005641387 cites W1972498651 @default.
• W2005641387 cites W1972646318 @default.
• W2005641387 cites W1976179656 @default.
• W2005641387 cites W1978601867 @default.
• W2005641387 cites W1982937345 @default.
• W2005641387 cites W1985532921 @default.
• W2005641387 cites W1985717901 @default.
• W2005641387 cites W1988390079 @default.
• W2005641387 cites W1989819555 @default.
• W2005641387 cites W1992335371 @default.
• W2005641387 cites W1992732042 @default.
• W2005641387 cites W1994155220 @default.
• W2005641387 cites W2000355772 @default.
• W2005641387 cites W2001874769 @default.
• W2005641387 cites W2009487455 @default.
• W2005641387 cites W2009810706 @default.
• W2005641387 cites W2014060732 @default.
• W2005641387 cites W2014389422 @default.
• W2005641387 cites W2015075513 @default.
• W2005641387 cites W2015744322 @default.
• W2005641387 cites W2015781472 @default.
• W2005641387 cites W2017935501 @default.
• W2005641387 cites W2018461505 @default.
• W2005641387 cites W2020186515 @default.
• W2005641387 cites W2021446661 @default.
• W2005641387 cites W2023934922 @default.
• W2005641387 cites W2026228805 @default.
• W2005641387 cites W2026347248 @default.
• W2005641387 cites W2031501269 @default.
• W2005641387 cites W2036362544 @default.
• W2005641387 cites W2036549195 @default.
• W2005641387 cites W2036927322 @default.
• W2005641387 cites W2037960642 @default.
• W2005641387 cites W2039397073 @default.
• W2005641387 cites W2056162661 @default.
• W2005641387 cites W2059599439 @default.
• W2005641387 cites W2059837914 @default.
• W2005641387 cites W2062108013 @default.
• W2005641387 cites W2066449941 @default.
• W2005641387 cites W2068148585 @default.
• W2005641387 cites W2068593803 @default.
• W2005641387 cites W2068804199 @default.
• W2005641387 cites W2068905091 @default.
• W2005641387 cites W2073196355 @default.
• W2005641387 cites W2073288349 @default.
• W2005641387 cites W2073911615 @default.
• W2005641387 cites W2077246828 @default.
• W2005641387 cites W2077751657 @default.
• W2005641387 cites W2078940507 @default.
• W2005641387 cites W2086868899 @default.
• W2005641387 cites W2088354228 @default.
• W2005641387 cites W2088883019 @default.
• W2005641387 cites W2091704227 @default.
• W2005641387 cites W2093655659 @default.
• W2005641387 cites W2105827132 @default.
• W2005641387 cites W2110268970 @default.
• W2005641387 cites W2125529062 @default.
• W2005641387 cites W2128717184 @default.
• W2005641387 cites W2130619584 @default.
• W2005641387 cites W2133920926 @default.
• W2005641387 cites W2153702704 @default.
• W2005641387 cites W2337870266 @default.
• W2005641387 doi "https://doi.org/10.1039/b810773d" @default.
• W2005641387 hasPublicationYear "2008" @default.
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