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W3136351593 endingPage "2242" @default.
W3136351593 startingPage "2233" @default.
W3136351593 abstract "Research on coordination polymers (CPs) using 2-deoxy-d-ribose derivatives as ligands has not been documented to the best of our knowledge. Herein, the new ligand L (1,3,4-trikisisoniacyl-2-deoxy-β-d-ribopyranose) was designed and synthesized from 2-deoxy-d-ribose, and four CPs {[MnL2Cl2]·4CH3OH}∞ (1), {[CoL2Cl2]·4CH3OH}∞ (2), {[NiL2Cl2]·4CH3OH}∞ (3) and {[CoL2Br2]·4CH3OH}∞ (4) were prepared using L as the bridging ligand. Single-crystal X-ray analyses showed that the above four CPs crystallize in the trigonal space group P3121 and have the same 2D grid structures with the same 1D meso-helices and the same 3D supramolecular architectures, and each metal center bonds with four pyridyl rings to form a Δ-propeller configuration in 1–4. The same space groups, structures, and chiral types of the propellers of 1–4 suggest that L is a powerful ligand in controlling the structures and chiralities of its metal complexes. Interestingly, 3 gave weaker emission in the solid state but much stronger emission in suspension, and 2–4 showed the ability to sense Fe3+ with LODs of 2.75, 0.12, and 0.87 μM and quenching constants of 1.07 × 104, 1.67 × 104, and 3.33 × 104 M–1, respectively, and high interference resistance, indicating their potential to be used as sensitive fluorescence sensors for detecting Fe3+. The different metal centers of 1–4 should be the main factors that make them distinct in fluorescent properties and probe functions due to the similarities in compositions and structures of the four CPs." @default.
W3136351593 created "2021-03-29" @default.
W3136351593 creator A5012537955 @default.
W3136351593 creator A5058155763 @default.
W3136351593 creator A5064026144 @default.
W3136351593 creator A5073117227 @default.
W3136351593 creator A5089600222 @default.
W3136351593 date "2021-03-24" @default.
W3136351593 modified "2023-10-16" @default.
W3136351593 title "Chiral Coordination Polymers from a New 2-Deoxy-<scp>d</scp>-ribose Derivative Linker: Syntheses, Structures, and Fe<sup>3</sup><sup>+</sup> Fluorescent Probe Functions" @default.
W3136351593 cites W1914307777 @default.
W3136351593 cites W1969360633 @default.
W3136351593 cites W1970699559 @default.
W3136351593 cites W1973911284 @default.
W3136351593 cites W1980685159 @default.
W3136351593 cites W1984840739 @default.
W3136351593 cites W1999918445 @default.
W3136351593 cites W2005840141 @default.
W3136351593 cites W2024175762 @default.
W3136351593 cites W2042397184 @default.
W3136351593 cites W2046159285 @default.
W3136351593 cites W2052386892 @default.
W3136351593 cites W2062107099 @default.
W3136351593 cites W2067450342 @default.
W3136351593 cites W2068430123 @default.
W3136351593 cites W2075444075 @default.
W3136351593 cites W2075953656 @default.
W3136351593 cites W2076844356 @default.
W3136351593 cites W2078883609 @default.
W3136351593 cites W2082049631 @default.
W3136351593 cites W2084058213 @default.
W3136351593 cites W2088499016 @default.
W3136351593 cites W2089499271 @default.
W3136351593 cites W2090657745 @default.
W3136351593 cites W2131350133 @default.
W3136351593 cites W2132454074 @default.
W3136351593 cites W2146658815 @default.
W3136351593 cites W2159500824 @default.
W3136351593 cites W2170751676 @default.
W3136351593 cites W2171081520 @default.
W3136351593 cites W2174048526 @default.
W3136351593 cites W2313650448 @default.
W3136351593 cites W2326269884 @default.
W3136351593 cites W2327354140 @default.
W3136351593 cites W2329200409 @default.
W3136351593 cites W2343278052 @default.
W3136351593 cites W2391162321 @default.
W3136351593 cites W2394756235 @default.
W3136351593 cites W2470425917 @default.
W3136351593 cites W2480725434 @default.
W3136351593 cites W2524370467 @default.
W3136351593 cites W2528232962 @default.
W3136351593 cites W2564286202 @default.
W3136351593 cites W2592954294 @default.
W3136351593 cites W2751616992 @default.
W3136351593 cites W2752054591 @default.
W3136351593 cites W2752771124 @default.
W3136351593 cites W2761307970 @default.
W3136351593 cites W2765365908 @default.
W3136351593 cites W2770001557 @default.
W3136351593 cites W2795667867 @default.
W3136351593 cites W2836463812 @default.
W3136351593 cites W2893076049 @default.
W3136351593 cites W2901204783 @default.
W3136351593 cites W2901929219 @default.
W3136351593 cites W2902347048 @default.
W3136351593 cites W2904342672 @default.
W3136351593 cites W2907801643 @default.
W3136351593 cites W2911355590 @default.
W3136351593 cites W2912163870 @default.
W3136351593 cites W2914631189 @default.
W3136351593 cites W2915913210 @default.
W3136351593 cites W2915932976 @default.
W3136351593 cites W2918969462 @default.
W3136351593 cites W2952133601 @default.
W3136351593 cites W2954753936 @default.
W3136351593 cites W2955566817 @default.
W3136351593 cites W2963816825 @default.
W3136351593 cites W2977454754 @default.
W3136351593 cites W2989523229 @default.
W3136351593 cites W2991606735 @default.
W3136351593 cites W2992813408 @default.
W3136351593 cites W2998057969 @default.
W3136351593 cites W3003554031 @default.
W3136351593 cites W3004642423 @default.
W3136351593 cites W3005053018 @default.
W3136351593 cites W3009000759 @default.
W3136351593 cites W3009276759 @default.
W3136351593 cites W3009822117 @default.
W3136351593 cites W3016776808 @default.
W3136351593 cites W3022396916 @default.
W3136351593 cites W978028388 @default.
W3136351593 doi "https://doi.org/10.1021/acs.cgd.0c01661" @default.
W3136351593 hasPublicationYear "2021" @default.
W3136351593 type Work @default.
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