Introducing HaNTr – Halloysite Nanotubes Targeting System for The Selective Delivery of Antibiotics

Prinz Setter, Ofer; Gilboa, Alva; Shalash, Ghazal; Refael, Gil; Tarazi Riess, Hila; Shani Levi, Carmit; Lesmes, Uri; Segal, Ester

doi:10.1002/adfm.202315923

Adv Funct Materials

2024

DOI: 10.1002/adfm.202315923

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Introducing HaNTr – Halloysite Nanotubes Targeting System for The Selective Delivery of Antibiotics

Ofer Prinz Setter,

Alva Gilboa,

Ghazal Shalash

et al.

Abstract: Antibiotics have been established to induce indiscriminate detrimental effects on the gut commensal bacteria which are vital for human health. This study unprecedently reports the mitigation of this challenge through the targeted delivery of antibiotics to a specific intestinal model pathogen using naturally occurring nanoclay. The designed Halloysite nanotubes targeting (HaNTr) system employs intrinsically mesoporous clay particles, functionalized with antibodies against Escherichia coli (E. coli). Loaded wit… Show more

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Cited by 4 publications

References 87 publications

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Tailoring Synergistic Multifunctionality in Lightweight Bio‐Inspired Cylindrical Core‐Shell Hybrid Composites

Aguiar,

Sansone,

Cheung

et al. 2024

Adv Funct Materials

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Biological structures achieve remarkable material performance owing to naturally assembled structures that extend from the molecular to macro‐scale. Synergy among constituents of various length scales yields lightweight, hierarchically structured materials with properties superior to those of individual components. To replicate nature's ingenuity, this work emulates the cylindrical core‐shell structure found in osteons and bamboo, utilizing Halloysite Nanotubes (HNTs) and Glass Fibers (GFs) in a semi‐crystalline polymer matrix. HNTs are environmentally friendly, naturally occurring tubular aluminosilicates with high aspect ratios, large lumen volumes, and low cost, and are readily dispersible in polymer matrices. Here, hierarchical reinforcement is achieved through controlled electrostatic assembly of HNTs onto GFs and subsequent trans‐crystallization‐encapsulation. This cylindrical core‐shell architecture yields composites with exceptional mechanical performance, superior thermal management (insulation/stability), improved industrial processability, and reduced flame propagation speed. Compared to the current industrial composite substitute for metallic structural components, the hybrid composites exhibit a remarkable 84% increase in impact strength, 27% increase in specific tensile strength, 56% increase in tensile toughness, and 30% in specific flexural strength, accompanied by a 20% weight reduction and a 255% increase in processability (melt‐flow index). This scalable assembly strategy marks a cornerstone in lightweight multifunctional materials development, to conquer future sustainability targets.

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Tailoring Synergistic Multifunctionality in Lightweight Bio‐Inspired Cylindrical Core‐Shell Hybrid Composites

Aguiar,

Sansone,

Cheung

et al. 2024

Adv Funct Materials

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Special Issue on Advances in Porous Materials

Santos

2024

Nano Select

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This Special Issue is dedicated to current research activities on Advanced Porous Materials within the framework of “The NETPORE COST Action,” providing a collection of 12 outstanding contributions (four review papers and eight original research papers) from diverse research groups on the latest progresses regarding porous nano‐ and micro‐materials for diverse applications. The contributions herein address the impact of porous materials in basic science, batteries, biosensing, and translational and personalized medicine for the treatment of various diseases. Overall, this Special Issue is expected to provide important background and new knowledge on the latest advances in porous materials and their broad applications.

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Spherical Assembly of Halloysite Clay Nanotubes as a General Reservoir of Hydrophobic Pesticides for pH‐Responsive Management of Pests and Weeds

Teng,

Chen,

et al. 2024

Small

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The development of smart systems for pesticidal delivery presents a significant advancement in enhancing the utilization efficiency of pesticides and mitigating environmental risks. Here an acid‐responsive pesticidal delivery system using microspheres formed by the self‐assembly of halloysite clay nanotubes (HNTs) is proposed. Insecticide avermectin (AVM) and herbicide prometryn (PMT) are used as two models of hydrophobic pesticide and encapsulated within the porous microspheres, followed by a coating of tannic acid/iron (TA/FeIII) complex films to generate two controlled‐release pesticides, named as HCEAT and HCEPT, resulting in the loading capacity of AVM and PMT being 113.3 and 120.3 mg g−1, respectively. Both HCEAT and HCEPT exhibit responsiveness to weak acid, achieving 24 h‐release ratios of 85.8% and 80.5% at a pH of 5.5. The experiment and simulation results indicate that the coordination interaction between EDTA2− and Ca2+ facilitates the spherical aggregation of HNTs. Furthermore, these novel pesticide formulations demonstrate better resistance against ultraviolet (UV) irradiation, higher foliar affinity, and less leaching effect, with negligible impact of the carrier material on plants and terrestrial organisms. This work presents a promising approach toward the development of efficient and eco‐friendly pesticide formulations, greatly contributing to the sustainable advancement of agriculture.

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Introducing HaNTr – Halloysite Nanotubes Targeting System for The Selective Delivery of Antibiotics

Cited by 4 publications

References 87 publications

Tailoring Synergistic Multifunctionality in Lightweight Bio‐Inspired Cylindrical Core‐Shell Hybrid Composites

Tailoring Synergistic Multifunctionality in Lightweight Bio‐Inspired Cylindrical Core‐Shell Hybrid Composites

Special Issue on Advances in Porous Materials

Spherical Assembly of Halloysite Clay Nanotubes as a General Reservoir of Hydrophobic Pesticides for pH‐Responsive Management of Pests and Weeds

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