Engineered shapes using electrohydrodynamic atomization for an improved drug delivery

Wiley Interdisciplinary Reviews Nanomedicine and Nanobiotechnology, Journal Year: 2024, Volume and Issue: 16(3)

Published: May 1, 2024

Abstract The shapes of micro‐ and nano‐products have profound influences on their functional performances, which has not received sufficient attention during the past several decades. Electrohydrodynamic atomization (EHDA) techniques, mainly include electrospinning electrospraying, are facile in manipulate products' shapes. In this review, generated using EHDA for modifying drug release profiles reviewed. These linear nanofibers, round micro‐/nano‐particles, beads‐on‐a‐string hybrids. They can be further divided into different kinds sub‐shapes, explored providing desired pulsatile release, sustained biphasic delayed pH‐sensitive release. Additionally, resulted from organizations electrospun nanofibers discussed delivery, inner structures considered together developing novel delivery systems. future, related shape–performance relationships at nanoscale, besides size, structure structure–performance relationships, would play important roles promoting developments field. This article is categorized under: Therapeutic Approaches Drug Discovery > Emerging Technologies

Language: Английский

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Biomimetic and Durably Superhydrophobic Nanofibrous Membranes for High‐Performance Waterproof and Breathable Textiles

Advanced Functional Materials, Journal Year: 2024, Volume and Issue: 34(26)

Published: Feb. 29, 2024

Abstract Man‐made superhydrophobic membranes are of interest for various applications in energy, environment, and medical fields. However, simultaneously achieving durable superhydrophobicity, robust waterproofness, high breathability the is still challenging. Herein, an efficient powerful strategy reported to create with perdurable liquid repellency via combining humidity‐induced electrospinning coat‐crosslinking technology. The micro/nano rough structure situ constructed based on manipulating phase separation electrospun jets; meanwhile, waterborne acrylic resins bridged surface nanofiber endow stable low energy coating crosslinking treatment. Eventually, resultant present superhydrophobicity a water contact angle ≈154°, good self‐cleaning anti‐icing properties, waterproofness 83.4 kPa, 3.71 kg m −2 d −1 . More interestingly, nanomaterials can maintain even after exposure severe conditions. successful creation high‐performance opens new avenue synthesizing advanced functional materials application variety

Language: Английский

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Advanced postoperative tissue antiadhesive membranes enabled with electrospun nanofibers

Biomaterials Science, Journal Year: 2024, Volume and Issue: 12(7), P. 1643 - 1661

Published: Jan. 1, 2024

Electrospun nanofibers with fascinating properties provide a versatile platform for postoperative tissue anti-adhesion.

Language: Английский

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Multifunctional Nanofibrous Membranes for Integrated Air Purification

Advanced Fiber Materials, Journal Year: 2024, Volume and Issue: 6(5), P. 1306 - 1342

Published: May 22, 2024

Language: Английский

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Highly electrostatic cellulose acetate materials assisted by copper ion coordination for air filtration

Chemical Engineering Journal, Journal Year: 2025, Volume and Issue: unknown, P. 159848 - 159848

Published: Jan. 1, 2025

Language: Английский

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Ultrathin aerogel-structured micro/nanofiber metafabric via dual air-gelation synthesis for self-sustainable heating

Nature Communications, Journal Year: 2024, Volume and Issue: 15(1)

Published: July 30, 2024

Incorporating passive heating structures into personal thermal management technologies could effectively mitigate the escalating energy crisis. However, current materials struggle to balance thickness and insulating capability, resulting in compromised comfort, space efficiency, limited thermoregulatory performance. Here, a dual air-gelation strategy, is developed directly synthesize ultrathin self-sustainable metafabric with 3D dual-network structure during electrospinning. Controlling interactions among polymer, solvent, water enables microphase separation of charged jets, while adjusting distribution carbon black nanoparticles within fluids form fibrous networks composed interlaced aerogel micro/nanofibers heat storage capabilities. With low 0.18 mm, integrated exhibits exceptional insulation performance (15.8 mW m−1K−1), superhydrophobicity, enhanced mechanical properties, high breathability maintaining radiative ability (long-lasting warming 8.8 °C). This strategy provides rich possibilities develop advanced for smart textiles management. Aerogels have application due their fragility poor processability. authors an aerogel-structured micro/nanofiber self-sustained by developing strategy.

Language: Английский

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Direct Assembly of Aerogel Micro‐Nanofiber/MXene Sponges with Dual‐Network Structures for All‐Day Personal Heating

Advanced Functional Materials, Journal Year: 2024, Volume and Issue: 34(27)

Published: Feb. 21, 2024

Abstract Maintaining human body temperature under low is crucial to well‐being, thereby urgently requiring for high‐performance warmth retention materials. However, designing such materials with both mechanical robustness and warming up the complex changing outdoor environments remains challenging. Here, a dual‐network structured aerogel micro‐nanofiber/MXene sponge directly synthesized by synchronous occurrence of electrospinning electrospraying. Tailoring phase inversion solution jet creates micro‐nanofibers highly porous structures, which exhibit nanoscale aperture (30–60 nm) high single fiber surface aera (56.5 m 2 g −1 ). Under strong hydrogen bonding interaction, structures are constructed chemical entanglement between self‐assembled MXene networks, achieving robust stretchable compressible property. The nanopores cause Knudsen effect suppress slippage air molecules, enhancing unique capacity block heat energy. Further integrating passive radiative heating active performance as‐designed offers an all‐day personal system rise skin over 3.5 °C. This work may provide new candidates applications within aerospace, energy, transportation, building.

Language: Английский

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Thermally stabilized polyacrylonitrile/polyphenylene sulfide composite membranes for efficient emission control in harsh environments

Chemical Engineering Journal, Journal Year: 2024, Volume and Issue: 490, P. 151658 - 151658

Published: April 25, 2024

Language: Английский

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Plant-mimicking biodegradable nanofibers for enhanced PM capturing and AI-assisted high-accuracy respiratory diagnosis

Separation and Purification Technology, Journal Year: 2025, Volume and Issue: 361, P. 131459 - 131459

Published: Jan. 5, 2025

Language: Английский

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Electrospinning vs Fluorescent Organic Nano-Dots: A Comparative Review of Nanotechnologies in Organoluminophores Utilization

Journal of Inorganic and Organometallic Polymers and Materials, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 13, 2025

Abstract This review explores the pivotal roles of two advanced nanotechnologies—electrospinning (ES) and fluorescent organic nano-dots (FONs) in development application organoluminophores (OLs). As demand intensifies for innovative OL-based systems fields such as biomedical imaging, drug delivery, materials engineering, sensing, energy, ES FONs present complementary yet distinct technological pathways. Each method offers unique advantages optimizing material properties, compatibility, optical performance, positioning them at forefront research. enables precise control over structure, enhancing performance scalable industrial applications. deliver superior particularly bio-imaging, through environmentally friendly synthesis. comparative analysis critically examines strengths limitations both techniques, including aspects synthesis complexity, adaptability, functional enhancement, utilization. Furthermore, recent advancements, ongoing challenges, future prospects within this rapidly evolving field are discussed, providing a comprehensive perspective on potential these luminescent technologies to drive next-generation OL Graphical

Language: Английский

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