Hybrid Polymer-Silica Nanostructured Materials for Environmental Remediation

Grisolia, Antonio; Dell’Olio, Gianluca; Spadafora, Angelica; De Santo, Marzia; Morelli, Catia; Leggio, Antonella; Pasqua, Luigi

doi:10.3390/molecules28135105

Cited by 14 publications

(4 citation statements)

References 200 publications

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“…The silanol groups on the surface of the silica coating, as evidenced by the presence of Si, can serve as reactive sites for bioconjugation . The silanol groups on the surface of the silica coating serve as reactive sites, facilitating the formation of stable and tailored molecular attachments, expanding the magnetic particles’ functionality for healthcare applications …”

Section: Resultsmentioning

confidence: 99%

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Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe₃O₄@m-SiO₂ Core–Shell Particles to Counteract Adhesive Interfacial Breakdown

Mokeem,

Martini Garcia,

Balhaddad

et al. 2024

ACS Appl. Mater. Interfaces

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The process of bonding to dentin is complex and dynamic, greatly impacting the longevity of dental restorations. The tooth/dental material interface is degraded by bacterial acids, matrix metalloproteinases (MMPs), and hydrolysis. As a result, bonded dental restorations face reduced longevity due to adhesive interfacial breakdown, leading to leakage, tooth pain, recurrent caries, and costly restoration replacements. To address this issue, we synthesized and characterized a multifunctional magnetic platform, CHX@SiQuac@Fe 3 O 4 @m-SiO 2 , to provide several beneficial functions. The platform comprises Fe 3 O 4 microparticles and chlorhexidine (CHX) encapsulated within mesoporous silica, which was silanized by an antibacterial quaternary ammonium silane (SiQuac). This platform simultaneously targets bacterial inhibition, stability of the hybrid layer, and enhanced filler infiltration by magnetic motion. Comprehensive experiments include X-ray diffraction, FT-IR, VSM, EDS, N 2 adsorption−desorption (BET), transmission electron microscopy, scanning electron microscopy, thermogravimetric analysis, and UV−vis spectroscopy. Then, CHX@SiQuac@Fe 3 O 4 @m-SiO 2 was incorporated into an experimental adhesive resin for dental bonding restorations, followed by immediate and long-term antibacterial assessment, cytotoxicity evaluation, and mechanical and bonding performance. The results confirmed the multifunctional nature of CHX@SiQuac@Fe 3 O 4 @m-SiO 2 . This work outlined a roadmap for (1) designing and tuning an adhesive formulation containing the new platform CHX@SiQuac@Fe 3 O 4 @m-SiO 2 ; (2) assessing microtensile bond strength to dentin using a clinically relevant model of simulated hydrostatic pulpal pressure; and (3) investigating the antibacterial outcome performance of the particles when embedded into the formulated adhesives over time. The results showed that at 4 wt % of CHX@SiQuac@Fe 3 O 4 @m-SiO 2 -doped adhesive under the guided magnetic field, the bond strength increased by 28%. CHX@SiQuac@Fe 3 O 4 @m-SiO 2 enhanced dentin adhesion in the magnetic guide bonding process without altering adhesive properties or causing cytotoxicity. This finding presents a promising method for strengthening the tooth/dental material interface's stability and extending the bonded restorations' lifespan.

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Section: Resultsmentioning

confidence: 99%

“…16 The silanol groups on the surface of the silica coating serve as reactive sites, facilitating the formation of stable and tailored molecular attachments, expanding the magnetic particles' functionality for healthcare applications. 17 2.1.1. Surface Analysis and Saturation Magnetization.…”

Section: Physical Characterization Of the Synthesizedmentioning

confidence: 99%

Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe₃O₄@m-SiO₂ Core–Shell Particles to Counteract Adhesive Interfacial Breakdown

Mokeem,

Martini Garcia,

Balhaddad

et al. 2024

ACS Appl. Mater. Interfaces

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“…Moreover, the application areas of nanoparticles include taking higher-resolution pictures, making nano-detectors for ecological contamination, and providing a high quantity of optoelectronics strategies in solar energy application processes, catalysts, and many more. Additionally, innovative nanostructures of silica efficiently eliminate contaminants [29][30][31]. In the past, researchers engaged in developing carbon-or mineral-based nanoparticles for effective services to serve mankind [32][33][34][35].…”

Section: Applicationsmentioning

confidence: 99%

The Multifaceted Perspective on the Role of Green Synthesis of Nanoparticles in Promoting a Sustainable Green Economy

Sah,

Thakuri,

Pant

et al. 2024

Sustainable Chemistry

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The current economic development paradigm, which is based on steadily rising resource consumption and pollution emissions, is no longer viable in a world with limited resources and ecological capacity. The “green economy” idea has presented this context with a chance to alter how society handles the interplay between the environmental and economic spheres. The related concept of “green nanotechnology” aims to use nano-innovations within the fields of materials science and engineering to generate products and processes that are economically and ecologically sustainable, enabling society to establish and preserve a green economy. Many different economic sectors are anticipated to be impacted by these applications, including those related to corrosion inhibitor nanofertilizers, nanoremediation, biodegradation, heavy metal detection, biofuel, insecticides and pesticides, and catalytic CO2 reduction. These innovations might make it possible to use non-traditional water sources safely and to create construction materials that are enabled by nanotechnology, improving living and ecological conditions. Therefore, our aim is to highlight how nanotechnology is being used in the green economy and to present promises for nano-applications in this domain. In the end, it emphasizes how critical it is to attain a truly sustainable advancement in nanotechnology.

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“…The most recent comprehensive evaluations of research progress in this field are presented in a series of reviews [4][5][6][7][8][9][10][11][12], which encompass a diverse array of final applications, such as those in electronics [13,14], alongside thorough theoretical analyses [15,16]. Several of these reviews underscore the importance of environmental restoration through sustainable development [5], heightened focus on industrial ecology [11,12], and advancements aimed at enhancing living standards and human health [6,8,10].…”

Section: Introductionmentioning

confidence: 99%

The Thermophysical Aspects of the Transformation of Porous Structures in Versatile Nanostructured Materials

Koshlak,

Basok,

Pavlenko

et al. 2024

Sustainability

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The technology of obtaining porous nanostructures is based on ecological organosilicon materials and their uses in some spheres of human life, for example, for medical preparations, for thermal insulation of building structures and industrial equipment, and for cleaning. The purpose of this study was to establish correlations between various experimental parameters (shear stress, speed pulsations, temperature, viscosity, and processing time) and the rheological characteristics of suspensions obtained by the method of liquid-phase dispersion; it was a study of hydrodynamic effects and the processes of heat and mass exchange in liquid systems during the liquid-phase dispersion of hydrogel monoliths by means of discrete-pulse activation in a special rotary apparatus. The dehydration of hydrogels was carried out by two methods: convective drying in a layer and spraying in the coolant flow. Experiments have shown that the key parameters for obtaining stable homogeneous suspensions are a synergistic combination of concentration factors and processing time. To obtain adsorbents in the form of pastes with specified adsorption properties and a monolith size of up to 300 μm, the optimal parameters were a hydrogel concentration of 70% and a processing time in the double-recirculation mode. Xerogels obtained by convective drying are a polydisperse mixture of strong monoliths and fragile aggregates. In contrast, xerogel monoliths obtained by spray drying show great homogeneity in terms of dispersion and strength characteristics. The rheological parameters of the hydrogel dispersions, which depend on the concentration and hydrodynamic treatment modes, are the dominant factors affecting the moisture extraction during drying. This study marks the first investigation into the resilience of porous organosilicon structures against the influence of intense turbulence fields and mechanical stresses experienced within the rotor apparatus during suspension production.

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Hybrid Polymer-Silica Nanostructured Materials for Environmental Remediation

Cited by 14 publications

References 200 publications

Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe₃O₄@m-SiO₂ Core–Shell Particles to Counteract Adhesive Interfacial Breakdown

Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe₃O₄@m-SiO₂ Core–Shell Particles to Counteract Adhesive Interfacial Breakdown

The Multifaceted Perspective on the Role of Green Synthesis of Nanoparticles in Promoting a Sustainable Green Economy

The Thermophysical Aspects of the Transformation of Porous Structures in Versatile Nanostructured Materials

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Hybrid Polymer-Silica Nanostructured Materials for Environmental Remediation

Cited by 14 publications

References 200 publications

Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe3O4@m-SiO2 Core–Shell Particles to Counteract Adhesive Interfacial Breakdown

Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe3O4@m-SiO2 Core–Shell Particles to Counteract Adhesive Interfacial Breakdown

The Multifaceted Perspective on the Role of Green Synthesis of Nanoparticles in Promoting a Sustainable Green Economy

The Thermophysical Aspects of the Transformation of Porous Structures in Versatile Nanostructured Materials

Contact Info

Product

Resources

About

Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe₃O₄@m-SiO₂ Core–Shell Particles to Counteract Adhesive Interfacial Breakdown

Multifunctional Dental Adhesives Formulated with Silane-Coated Magnetic Fe₃O₄@m-SiO₂ Core–Shell Particles to Counteract Adhesive Interfacial Breakdown