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W2130868963 abstract "Abstract Four novel coordination polymers were solvothermally synthesized from metal(II) salts (the metals being Mn, Ca, and Sr) and 2,5‐dihydroxyterephthalic acid (H 4 dhtp), and their crystal structures were determined by single‐crystal X‐ray diffraction analysis. Of the two different types of functional group of the organic linker, only the carboxylic acid has been deprotonated on formation of the compounds. The manganese compound Mn(H 2 dhtp)(H 2 O) 2 , CPO‐26‐Mn, contains octahedrally coordinated metal atoms in a three‐dimensional framework. It is isostructural with the previously reported magnesium compound CPO‐26‐Mg. The heavier alkaline earth elements calcium and strontrium exhibit higher coordination numbers in their compounds. Calcium was found to form two compounds depending on reaction conditions, Ca(H 2 dhtp)(H 2 O) 2 , CPO‐20, and Ca(H 2 dhtp), CPO‐21. Both structures consist of three‐dimensional networks. CPO‐20 contains dimeric edge‐sharing calcium coordination polyhedra, whereas in CPO‐21 the octacoordinate calcium coordination polyhedra are linked by common edges to straight one‐dimensional chains. The crystal structure of Sr(H 2 dhtp)(H 2 O), CPO‐22, is similar to that of CPO‐21. Again, the coordination polyhedra are condensed by shared edges into one‐dimensional chains. However, because the strontium atom is nonacoordinate, with the additional ligand being the water molecule, the chains are corrugated in this case." @default.
W2130868963 created "2016-06-24" @default.
W2130868963 creator A5031433543 @default.
W2130868963 creator A5040133782 @default.
W2130868963 creator A5086369320 @default.
W2130868963 date "2009-10-01" @default.
W2130868963 modified "2023-10-09" @default.
W2130868963 title "Coordination Polymers Based on the 2,5‐Dihydroxyterephthalate Ion and Alkaline Earth Metal (Ca, Sr) and Manganese Cations " @default.
W2130868963 cites W1969627970 @default.
W2130868963 cites W1971276140 @default.
W2130868963 cites W1971765208 @default.
W2130868963 cites W1973649654 @default.
W2130868963 cites W1973947680 @default.
W2130868963 cites W1974045331 @default.
W2130868963 cites W1974864818 @default.
W2130868963 cites W1976408176 @default.
W2130868963 cites W1976893852 @default.
W2130868963 cites W1978192673 @default.
W2130868963 cites W1982780685 @default.
W2130868963 cites W1986045215 @default.
W2130868963 cites W1987632972 @default.
W2130868963 cites W1988644907 @default.
W2130868963 cites W1994641953 @default.
W2130868963 cites W1994919884 @default.
W2130868963 cites W1995346641 @default.
W2130868963 cites W1999937609 @default.
W2130868963 cites W2003759419 @default.
W2130868963 cites W2007998078 @default.
W2130868963 cites W2008219001 @default.
W2130868963 cites W2008772692 @default.
W2130868963 cites W2009576369 @default.
W2130868963 cites W2010328792 @default.
W2130868963 cites W2012950397 @default.
W2130868963 cites W2016104362 @default.
W2130868963 cites W2018524996 @default.
W2130868963 cites W2019578276 @default.
W2130868963 cites W2020414767 @default.
W2130868963 cites W2022167379 @default.
W2130868963 cites W2023112150 @default.
W2130868963 cites W2027011204 @default.
W2130868963 cites W2027148539 @default.
W2130868963 cites W2027808067 @default.
W2130868963 cites W2031603041 @default.
W2130868963 cites W2038749085 @default.
W2130868963 cites W2043609169 @default.
W2130868963 cites W2050036711 @default.
W2130868963 cites W2050159255 @default.
W2130868963 cites W2052187231 @default.
W2130868963 cites W2052342916 @default.
W2130868963 cites W2057904830 @default.
W2130868963 cites W2059336671 @default.
W2130868963 cites W2060360678 @default.
W2130868963 cites W2060411961 @default.
W2130868963 cites W2062456277 @default.
W2130868963 cites W2063890468 @default.
W2130868963 cites W2071704684 @default.
W2130868963 cites W2074702204 @default.
W2130868963 cites W2077585142 @default.
W2130868963 cites W2077751657 @default.
W2130868963 cites W2081011695 @default.
W2130868963 cites W2082137589 @default.
W2130868963 cites W2084189113 @default.
W2130868963 cites W2086319108 @default.
W2130868963 cites W2087572690 @default.
W2130868963 cites W2090264019 @default.
W2130868963 cites W2091014217 @default.
W2130868963 cites W2093627747 @default.
W2130868963 cites W2093799053 @default.
W2130868963 cites W2099486431 @default.
W2130868963 cites W2110993530 @default.
W2130868963 cites W2115764422 @default.
W2130868963 cites W2116947538 @default.
W2130868963 cites W2117084081 @default.
W2130868963 cites W2128123915 @default.
W2130868963 cites W2132803448 @default.
W2130868963 cites W2147895642 @default.
W2130868963 cites W2148524532 @default.
W2130868963 cites W2164802305 @default.
W2130868963 cites W2166689829 @default.
W2130868963 cites W2168204708 @default.
W2130868963 cites W2168894273 @default.
W2130868963 cites W330072529 @default.
W2130868963 cites W4254692391 @default.
W2130868963 doi "https://doi.org/10.1002/zaac.200900348" @default.
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