Pore engineering of micro/mesoporous nanomaterials for encapsulation, controlled release and variegated applications of essential oils

Su, Xiaoyu; Li, Biao; Chen, Shuiyan; Wang, Xinmin; Song, Hao; Shen, Baode; Zheng, Qin; Yang, Ming; Yue, Pengfei

doi:10.1016/j.jconrel.2024.01.005

Cited by 10 publications

(2 citation statements)

References 197 publications

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“…Scientific insights underscore the moisturizing and photoprotective properties of these formulations [180]. The trajectory, guided by scientific rigor, seeks to refine the synergy between essential oils and nanoparticles, unveiling optimized combinations and novel nanostructures tailored to specific skin needs [181,182].…”

Section: Current Scientific Landscape and Futuristic Trajectoriesmentioning

confidence: 99%

A Comprehensive Review of Essential Oil–Nanotechnology Synergy for Advanced Dermocosmetic Delivery

Achagar,

Ait-Touchente,

El Ati

et al. 2024

Cosmetics

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This review investigates the convergence of nanotechnology and essential oils in advanced dermocosmetic delivery. It outlines the pivotal role of inorganic and polymeric nanoparticles, such as titanium dioxide, zinc oxide, and gold nanocarriers, in cosmeceutical applications, facilitating slow release, deeper skin penetration, and increased retention of active compounds. Essential oils, renowned for therapeutic benefits, face translation challenges due to volatility and low water solubility. This review explores the potential use of plant nanovesicles as carriers, emphasizing safety, stability, and scalability, offering a sustainable and cost-effective industrial application. Nanomaterial integration in consumer products, particularly cosmetics, is prevalent, with nanocarriers enhancing the permeation of bioactive compounds into deeper skin layers. The review emphasizes recent nanotechnological advancements, covering nanoparticle penetration, experimental models, and therapeutic applications in dermatology, ranging from non-invasive vaccination to transdermal drug delivery. Additionally, the review delves into nanomaterials’ role in addressing skin aging, focusing on tissue regeneration. Nanomaterials loaded with cosmeceuticals, such as phytochemicals and vitamins, are explored as promising solutions to mitigate signs of aging, including wrinkles and dry skin, providing innovative approaches to skin rejuvenation. Overall, the review offers a comprehensive synthesis of essential oil–nanoparticle synergy, shedding light on the current landscape and future potential of advanced dermocosmetic delivery systems.

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Section: Current Scientific Landscape and Futuristic Trajectoriesmentioning

confidence: 99%

A Comprehensive Review of Essential Oil–Nanotechnology Synergy for Advanced Dermocosmetic Delivery

Achagar,

Ait-Touchente,

El Ati

et al. 2024

Cosmetics

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“…It usually has a tubular shape with an inner diameter of 5–20 nm and a length of 0.5–2 μm. − Halloysite nanotubes (HNT) are composed of silyl groups (Si-O-Si) on their outer surfaces and aluminum trihydrate octahedral groups (Al-OH) on their inner surface. It has been widely used in various fields, ,,− including pollutants removal, catalysis, energy storage, polymer filler, drug delivery, etc., attributing to its hollow tubular structure, high specific surface area, and opposite surface charges. − Especially, HNT is supposed to be a potential carrier for supporting nanocatalysts − , and trapping AB into its channels or coating AB on its surface in view of its distinct microstructure and the abundance of Al/Si-OH groups on inner/outer surfaces. ,, Assembling HNT into hierarchical porous aerogel can further increase the porous volume for supporting and trapping more matrix and inhibiting their aggregation − because aerogels have more complex porosity, lower density, and higher surface area. − For example, Ma et al in our group have encapsulated phase change material lauric acid into HNT aerogel, which can significantly improve the loading capacity of lauric acid …”

Section: Introductionmentioning

confidence: 99%

A Solid-System Strategy for Controlled Hydrolytic Release of Hydrogen by Encapsulation of Ammonia Borane in Cobalt Decorated Halloysite Aerogel

Mi,

Guo,

Yan

et al. 2024

ACS Sustainable Chem. Eng.

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Exploring the "on−off" control of hydrogen release remains a critical issue for efficiently on-demand utilization of hydrogen energy. In this work, a new hydrogen storage strategy of loading ammonia borane (AB) solid and metal catalyst Co in a halloysite nanotube aerogel (AB@Co/HNTA) is proposed for controlled hydrogen release from AB hydrolysis by controlling the added water. The results show that Co nanoparticles with a size of 3.07 nm are uniformly distributed on halloysite and HNTA surface, and AB can be packaged into HNTA to form a bulk solid composite. Controlled hydrogen generation is achieved in the AB@Co/HNTA solid system, which can be turned on and off by controlling the amount of water added to the aerogel. Further, the Co decorated HNTA (Co/HNTA) can be reused to encapsulate AB for the next run after AB complete hydrolysis. This work provides a new approach to control the release of hydrogen for application in the field of "on-board" device, and this solid-system strategy of controlled hydrolytic hydrogen release can be extended to any other porous material loaded with catalysts.

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Contrastive study on mechanical and microstructure properties of silt improved by nano material stabilizers

Li,

Wei,

et al. 2024

Construction and Building Materials

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Pore engineering of micro/mesoporous nanomaterials for encapsulation, controlled release and variegated applications of essential oils

Cited by 10 publications

References 197 publications

A Comprehensive Review of Essential Oil–Nanotechnology Synergy for Advanced Dermocosmetic Delivery

A Comprehensive Review of Essential Oil–Nanotechnology Synergy for Advanced Dermocosmetic Delivery

A Solid-System Strategy for Controlled Hydrolytic Release of Hydrogen by Encapsulation of Ammonia Borane in Cobalt Decorated Halloysite Aerogel

Contrastive study on mechanical and microstructure properties of silt improved by nano material stabilizers

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