2024
DOI: 10.1002/wnan.1964
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Engineered shapes using electrohydrodynamic atomization for an improved drug delivery

Deng‐Guang Yu,
Wenjian Gong,
Jianfeng Zhou
et al.

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 and electrospraying, are facile in manipulate their products' shapes. In this review, the shapes generated using EHDA for modifying drug release profiles are reviewed. These shapes include linear nanofibers, round micro‐/nano‐particles, and beads‐on‐a‐string… Show more

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Cited by 53 publications
(11 citation statements)
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“…Electrospinning employs an electric field to convert polymer solutions or melts into fibers. 77 This process is based on electro-hydrodynamics principles, in which a liquid is extruded through a small opening to create droplets. These droplets are influenced by electrostatic forces and acquire a charge, causing them to be either attracted or repelled, resulting in the formation of a Taylor cone, ultimately forming a jet.…”
Section: Hyper-cross-linking Of the Wpsmentioning
confidence: 99%
See 1 more Smart Citation
“…Electrospinning employs an electric field to convert polymer solutions or melts into fibers. 77 This process is based on electro-hydrodynamics principles, in which a liquid is extruded through a small opening to create droplets. These droplets are influenced by electrostatic forces and acquire a charge, causing them to be either attracted or repelled, resulting in the formation of a Taylor cone, ultimately forming a jet.…”
Section: Hyper-cross-linking Of the Wpsmentioning
confidence: 99%
“…Electrospinning employs an electric field to convert polymer solutions or melts into fibers . This process is based on electro-hydrodynamics principles, in which a liquid is extruded through a small opening to create droplets.…”
Section: Hyper-cross-linking Of the Wpsmentioning
confidence: 99%
“…for improving biological performance is also possible. 32,33 Among other biopolymers and derivatives, ethyl cellulose (EC) is known to be hydrophobic, stable (both thermally and mechanically), and nontoxic, presenting an interesting option due to its safety and biocompatibility. Therefore, EC has been widely employed in pharmaceutical and tissue engineering applications, among others.…”
Section: Introductionmentioning
confidence: 99%
“…Alternatively, these components can be tailored to have their own chambers within the structured nanofibers, provided there are no co-dissolved solvents for blend electrospinning ( Yao et al, 2018 ; Yao et al, 2022 ; Brimo et al, 2023 ). Moreover, such multichamber structured nanofibers can be produced in a single step in a straightforward manner ( Yu et al, 2024 ). The nozzle of a spinneret at the macroscale can be explored as a template to duplicate a wide variety of complex multicompartment nanoproducts through electrospinning ( Song et al, 2023 ; Tabakoglu et al, 2023 ).…”
Section: Introductionmentioning
confidence: 99%
“…In addition to the advantages similar to those of coaxial electrospinning, such as the single-step fabrication, straightforward implementation, and manufacture using structured nozzles of the spraying heads as templates, the coaxial electrospraying approach for creating core-shell particles has the advantage of being able to treat a broader range of raw materials through top-down fabrication ( Ji et al, 2023 ; Xu et al, 2023 ). There are only approximately 200 filament-forming polymers that can be converted to nanofibers through electrospinning, and these often have narrow electrospinnable windows ( Sivan et al, 2022a ; Yu et al, 2024 ). In sharp contrast, there are numerous materials that can be transformed into particles via electrospraying ( Sun et al, 2023 ).…”
Section: Introductionmentioning
confidence: 99%