Thermodynamics of Proton Binding of Halloysite Nanotubes

Bretti, Clemente; Cataldo, Salvatore; Gianguzza, Antonio; Lando, Gabriele; Lazzara, Giuseppe; Pettignano, Alberto; Sammartano, Silvio

doi:10.1021/acs.jpcc.6b01127

Cited by 58 publications

(50 citation statements)

References 40 publications

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“…This charge separation is strictly dependent on the acidbase properties of HNTs. To understand the aqueous behavior of these peculiar nanotubes Pettignano et al 23 studied the protonation/deprotonation equilibria of Si-OH and Al-OH groups by a ISE-H + potentiometric titration under variable pH, ionic strength, ionic medium and concentration conditions (Fig. 4).…”

Section: Physicochemical Propertiesmentioning

confidence: 99%

Covalently modified halloysite clay nanotubes: synthesis, properties, biological and medical applications

et al. 2017

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a Halloysite (HNT) is a promising natural nanosized tubular clay mineral that has many important uses in different industrial fields. It is naturally occurring, biocompatible, and available in thousands of tons at low cost. As a consequence of a hollow cavity, HNT is mainly used as nanocontainer for the controlled release of several chemicals. Chemical modification of both surfaces (inner lumen and outer surface) is a strategy to tune the nanotube's properties. Specifically, chemical modification of HNT surfaces generates a nanoarchitecture with targeted affinity through outer surface functionalization and drug transport ability from functionalization of the nanotube lumen. The primary focus of this review is the research of modified halloysite nanotubes and their applications in biological and medical fields.

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Section: Physicochemical Propertiesmentioning

confidence: 99%

Covalently modified halloysite clay nanotubes: synthesis, properties, biological and medical applications

et al. 2017

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“…5,6 Halloysite is a natural aluminosilicate clay with a predominantly hollow tubular structure (HNT); it is chemically similar to platy kaolin (Al 2 Si 2 O 5 (OH) 4 ), which shows excellent bio- 7,8 and ecocompatibility. 9,10 Halloysite is positively charged in the inner lumen, which consists mostly of aluminum hydroxide, whereas the external surface, which consists of silicon dioxide, 11 is negatively charged. The different surface chemistry allows selective functionalization of the inner or outer surfaces, enabling the synthesis of nanomaterials with hierarchical nanostructures.…”

Section: Introductionmentioning

confidence: 99%

Hybrid supramolecular gels of Fmoc-F/halloysite nanotubes: systems for sustained release of camptothecin

et al. 2017

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show that f-HNT functions only as an additive in the hybrid gels and does not demonstrate gelator behavior. The in vitro kinetic release from both f-HNT/CPT and Fmoc-F/f-HNT/CPT was studied in media that imitates physiological conditions, and the factors controlling the release process were determined and discussed. Furthermore, the antiproliferative in vitro activities of the gels were evaluated towards human cervical cancer HeLa cells. A comparison of data collected in both systems shows the synergistic action of f-HNT and the gel matrix in controlling the release of CPT in the media and maintaining the drug in its active form. Finally, a comparison with pristine HNT is also reported. This study suggests a suitable strategy to obtain two-component gel hybrids based on nanocarriers with controlled drug carrier capacity for biomedical applications.

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“…They undergo ionization in aqueous media in the opposite way, generating a tube with inner and outer surfaces oppositely charged. 35 This charge separation occurs in water within a wide pH range, from 3 to 8.…”

mentioning

confidence: 99%

Halloysite nanotubes as support for metal-based catalysts

Massaro,

Colletti,

Lazzara

et al. 2017

J. Mater. Chem. A

248

106

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Halloysite nanotubes (HNTs) are clay minerals with a hollow nanotubular structure. There is growing interest in these nanomaterials, due to their biocompatibility, potential applications and availability. The surface Moreover, the presence of an empty lumen opens new perspectives for the production of nanoarchitectures with synergistic catalytic effects, due to the increase in local concentrations and confinement. The main focus of this review is the research on modified halloysite nanotubes for the preparation of valuable supports for metal nanoparticles and their applications in catalytic processes.

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Thermodynamics of Proton Binding of Halloysite Nanotubes

Cited by 58 publications

References 40 publications

Covalently modified halloysite clay nanotubes: synthesis, properties, biological and medical applications

Covalently modified halloysite clay nanotubes: synthesis, properties, biological and medical applications

Hybrid supramolecular gels of Fmoc-F/halloysite nanotubes: systems for sustained release of camptothecin

Halloysite nanotubes as support for metal-based catalysts

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