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W2510500869 endingPage "23020" @default.
W2510500869 startingPage "23008" @default.
W2510500869 abstract "Solid state 1H and 31P NMR spectroscopy was used to characterize well-crystallized hydroxyapatite samples of different stoichiometry prepared by a precipitation route. The aim of the paper was to investigate the bulk structural features of samples with different stoichiometry and to discriminate signals related to the surface from those related to the bulk. Thanks to the implementation of (i) in situ thermal pretreatment at 623 K, (ii) filling of the NMR rotor in a controlled atmosphere, (iii) relative proton enrichment of the surface performed under controlled isotopic H-D exchanges, and (iv) specific NMR sequences including inversion recovery measurements, two-dimensional HETCOR and DQSQ spectra, new resolved NMR signals originating from the surface and from the bulk were identified alongside already reported signals associated with adsorbed water, structural phosphates, and OH groups. In particular, considering the influence of the stoichiometry, it was possible to identify a specific signature associated with defective hydrogenophosphate groups present in the bulk. Despite the well-ordered surface terminations of the nanoparticles, specific surface signals associated with nonprotonated and protonated surface terminating phosphate groups could be identified. In addition, from the three resolved 1H signals associated with columnar OH channels, two from the bulk and one from the surface, a structural model describing the relative organization of hydroxyl groups running along the c axis inside the columnar OH channel in the well-crystallized particles is proposed: the two types of bulk hydroxyls are associated with the presence of both up and down orientations of their related protons in a same tunnel. Corresponding 1H signatures of the surface-terminating hydroxyls or structured water molecules emerging from the OH channels were also identified. Moreover, in addition to the broad 5.1 ppm line associated with water adsorbed on calcium cations and hydrogenophosphate groups, the 1.1 ppm line is ascribed to structured external water molecules stacking in continuity to the OH channels." @default.
W2510500869 created "2016-09-16" @default.
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W2510500869 creator A5075981142 @default.
W2510500869 creator A5091671842 @default.
W2510500869 date "2015-09-29" @default.
W2510500869 modified "2023-10-16" @default.
W2510500869 title "Discrimination of Surface and Bulk Structure of Crystalline Hydroxyapatite Nanoparticles by NMR" @default.
W2510500869 cites W172817006 @default.
W2510500869 cites W1820504904 @default.
W2510500869 cites W1967461997 @default.
W2510500869 cites W1968177064 @default.
W2510500869 cites W1968759789 @default.
W2510500869 cites W1969427531 @default.
W2510500869 cites W1970630620 @default.
W2510500869 cites W1972521109 @default.
W2510500869 cites W1977030584 @default.
W2510500869 cites W1979236930 @default.
W2510500869 cites W1982549931 @default.
W2510500869 cites W1986611298 @default.
W2510500869 cites W1987792362 @default.
W2510500869 cites W1988532478 @default.
W2510500869 cites W1988649446 @default.
W2510500869 cites W1989791019 @default.
W2510500869 cites W1989879654 @default.
W2510500869 cites W1997650869 @default.
W2510500869 cites W1998666225 @default.
W2510500869 cites W2000738700 @default.
W2510500869 cites W2001457670 @default.
W2510500869 cites W2010727662 @default.
W2510500869 cites W2011623389 @default.
W2510500869 cites W2012763942 @default.
W2510500869 cites W2012850866 @default.
W2510500869 cites W2014153137 @default.
W2510500869 cites W2020913954 @default.
W2510500869 cites W2023169156 @default.
W2510500869 cites W2024756843 @default.
W2510500869 cites W2024908339 @default.
W2510500869 cites W2033260662 @default.
W2510500869 cites W2035219534 @default.
W2510500869 cites W2035679385 @default.
W2510500869 cites W2039338488 @default.
W2510500869 cites W2039854939 @default.
W2510500869 cites W2042336010 @default.
W2510500869 cites W2042487597 @default.
W2510500869 cites W2043972781 @default.
W2510500869 cites W2047891706 @default.
W2510500869 cites W2064829469 @default.
W2510500869 cites W2067905344 @default.
W2510500869 cites W2068442906 @default.
W2510500869 cites W2071801723 @default.
W2510500869 cites W2073487879 @default.
W2510500869 cites W2075603939 @default.
W2510500869 cites W2078633048 @default.
W2510500869 cites W2080334952 @default.
W2510500869 cites W2081190131 @default.
W2510500869 cites W2081738190 @default.
W2510500869 cites W2082985422 @default.
W2510500869 cites W2087225467 @default.
W2510500869 cites W2088697330 @default.
W2510500869 cites W2089118523 @default.
W2510500869 cites W2089943543 @default.
W2510500869 cites W2092822291 @default.
W2510500869 cites W2094889807 @default.
W2510500869 cites W2102499833 @default.
W2510500869 cites W2103918222 @default.
W2510500869 cites W2105615841 @default.
W2510500869 cites W2126968249 @default.
W2510500869 cites W2136513203 @default.
W2510500869 cites W2139579249 @default.
W2510500869 cites W2149601307 @default.
W2510500869 cites W2165795695 @default.
W2510500869 cites W2312837796 @default.
W2510500869 cites W2327716676 @default.
W2510500869 cites W2327855768 @default.
W2510500869 cites W236192749 @default.
W2510500869 cites W2506215941 @default.
W2510500869 cites W4253729165 @default.
W2510500869 cites W4300151547 @default.
W2510500869 cites W45585777 @default.
W2510500869 doi "https://doi.org/10.1021/acs.jpcc.5b08732" @default.
W2510500869 hasPublicationYear "2015" @default.
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