2011
DOI: 10.1016/j.jssc.2011.01.017
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Study of the surface chemistry and morphology of single walled carbon nanotube–magnetite composites

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Cited by 7 publications
(5 citation statements)
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“…As was previously mentioned, the information obtained during the characterization guarantee that the adsorption space surface in dehydrated NPs is covered by oxygen anions and unsaturated M bonds. Thereafter, the finding made with the DRIFTS data are consistent with this information, since it indicated that CO 2 molecules were adsorbed on two adsorption states, one of them a state where the CO 2 molecule is physically adsorbed, fundamentally over the oxygen, and another adsorption state where the CO 2 molecule interacts with the M 2+ (Ni 2+ , Zn 2+ , and Cd 2+ ) cations located in the framework, which act as electron-accepting Lewis acid sites. , Lewis acid–base reactions result in more or less stable adducts whose steadiness can be explained by the model of the hard and soft acids and bases scheme, i.e., an acid–base adduct is produced by the charge transfer from the highest-occupied molecular orbital of the base to the lowest-unoccupied molecular orbital of the acid …”
Section: Resultssupporting
confidence: 64%
“…As was previously mentioned, the information obtained during the characterization guarantee that the adsorption space surface in dehydrated NPs is covered by oxygen anions and unsaturated M bonds. Thereafter, the finding made with the DRIFTS data are consistent with this information, since it indicated that CO 2 molecules were adsorbed on two adsorption states, one of them a state where the CO 2 molecule is physically adsorbed, fundamentally over the oxygen, and another adsorption state where the CO 2 molecule interacts with the M 2+ (Ni 2+ , Zn 2+ , and Cd 2+ ) cations located in the framework, which act as electron-accepting Lewis acid sites. , Lewis acid–base reactions result in more or less stable adducts whose steadiness can be explained by the model of the hard and soft acids and bases scheme, i.e., an acid–base adduct is produced by the charge transfer from the highest-occupied molecular orbital of the base to the lowest-unoccupied molecular orbital of the acid …”
Section: Resultssupporting
confidence: 64%
“…Although 295 K data were collected for all samples, they were not useful because some of the Fe oxides were too fine‐grained to be magnetically ordered at that temperature. Such superparamagnetism has been observed in both biogenic and synthetic magnetite at particle sizes below ~13 nm, often manifested as a doublet in room temperature Mössbauer spectra (Hassett et al ., ; Vali et al ., ; Weiss et al ., ; Ambashta et al ., ; Kalska‐Szostko et al ., ; Bandhu et al ., ; Li et al ., ; Marquez‐Linares et al ., ; Starowicz et al ., ; Zając et al ., ). The magnetic field of superparamagnetic nanoparticles varies in direction faster than the inverse lifetime of the 57 Fe nuclear excited state (on the order of 10 7 s −1 ).…”
Section: Methodsmentioning
confidence: 99%
“…Therefore, the third sextet is attributed to the Fe ions located in the surface region of the studied nanoparticles. According to previous research, [37][38][39] the B values on iron nuclei in the surface region of nanoparticles are significantly decreased. At the same time, the observed quadrupole splitting (QS = −0.26 (2) mm/s) can be explained assuming that the iron atoms located in the surface region are immersed in a non-zero electric field gradient which is an effect on the broken cubic symmetry.…”
Section: Dovepressmentioning
confidence: 69%
“…In the case of studied MNPs, the obtained value of Ms is one of the highest described. 34,[37][38][39] Besides enhanced osteoclastogenesis, chronic bone inflammation becomes an important factor that induces bone turnover, leading to osteoporosis development. 40 Numerous proinflammatory cytokines have been implicated in the regulation of osteoblasts and osteoclasts activity, and the advantage of proinflammatory over anti-inflammatory profile has been hypothesized as an important risk factor.…”
mentioning
confidence: 99%