Enhanced Ionic Polymer–Metal Composites with Nanocomposite Electrodes for Restoring Eyelid Movement of Patients with Ptosis

Hosseini, Sara Sadat; Yamini, Bakhtiar; Ичкитидзе, Л. П.; Asadi, Majid; Fernandez, Julie; Gholampour, Seifollah

doi:10.3390/nano13030473

Cited by 11 publications

(12 citation statements)

References 63 publications

(87 reference statements)

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“…As to the stability of any formulation, the variation of LP components was ≤9% within one month after synthesis, which is in accordance with the analysis of the diameter and PDI values, which were constant for a month; therefore we can assume that the risk of aggregation of these LP is very low. Indeed, it is worth noting that general lipid-based nanoparticles have a risk of aggregation and cluster formation during practical use [ 42 ], which has to be considered when developing a novel drug-delivery system. These are encouraging results, considering that both reproducibility and stability assessment are some of the major considerations for LPs production.…”

Section: Discussionmentioning

confidence: 99%

Raman Spectroscopy Characterization of Multi-Functionalized Liposomes as Drug-Delivery Systems for Neurological Disorders

et al. 2023

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The characterization of nanoparticle-based drug-delivery systems represents a crucial step in achieving a comprehensive overview of their physical, chemical, and biological features and evaluating their efficacy and safety in biological systems. We propose Raman Spectroscopy (RS) for the characterization of liposomes (LPs) to be tested for the control of neuroinflammation and microglial dysfunctions in Glioblastoma multiforme and Alzheimer’s disease. Drug-loaded LPs were functionalized to cross the blood–brain barrier and to guarantee localized and controlled drug release. The Raman spectra of each LP component were used to evaluate their contribution in the LP Raman fingerprint. Raman data analysis made it possible to statistically discriminate LPs with different functionalization patterns, showing that each molecular component has an influence in the Raman spectrum of the final LP formulation. Moreover, CLS analysis on Raman data revealed a good level of synthetic reproducibility of the formulations and confirmed their stability within one month from their synthesis, demonstrating the ability of the technique to evaluate the efficacy of LP synthesis using small amount of sample. RS represents a valuable tool for a fast, sensitive and label free biochemical characterization of LPs that could be used for quality control of nanoparticle-based therapeutics.

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Section: Discussionmentioning

confidence: 99%

Raman Spectroscopy Characterization of Multi-Functionalized Liposomes as Drug-Delivery Systems for Neurological Disorders

et al. 2023

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“…Additionally, CNTs are frequently utilized in ISAs due to the qualities of light weight, good flexibility, and good durability. [55,[200][201][202] Even the ISA with a single SWCNT electrode exhibits exceptional actuation owing to the excellent conductivity, electromechanical properties, and structural stability of the SWCNT. [13,96,203] For instance, the ISA of the SWCNT electrode created by Kim et al [175] (Figure 4a,b) had a large bending strain of 0.45% (Figure 4c) under 1.0 V and 0.5 Hz, an ultrafast response of 0.2 s (Figure 4d), and a neglected reduction in the actuator performance after 20 000 cycles (Figure 4e).…”

Section: Cnt Materialsmentioning

confidence: 99%

“…Additionally, CNTs are frequently utilized in ISAs due to the qualities of light weight, good flexibility, and good durability. [ 55,200–202 ]…”

Section: Carbon Based Nanomaterials For Isa Electrodesmentioning

confidence: 99%

Carbon‐Based Nanomaterials Electrodes of Ionic Soft Actuators: From Initial 1D Structure to 3D Composite Structure for Flexible Intelligent Devices

Wang,

Huang,

et al. 2023

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With the rapid development of autonomous and intelligent devices driven by soft actuators, ion soft actuators in flexible intelligent devices have several advantages over other actuators, including their light weight, low voltage drive, large strain, good flexibility, fast response, etc. Traditional ionic polymer metal composites have received a lot of attention over the past decades, but they suffer from poor driving performance and short service lives since the precious metal electrodes are not only expensive, heavy, and labor‐intensive, but also prone to cracking with repeated actuation. As excellent candidates for the electrode materials of ionic soft actuators, carbon‐based nanomaterials have received a lot of interest because of their plentiful reserves, low cost, and excellent mechanical, electrical, and electrochemical properties. This research reviewed carbon‐based nanomaterial electrodes of ion soft actuators for flexible smart devices from a fresh perspective from 1D to 3D combinations. The design of the electrode structure is introduced after the driving mechanism of ionic soft actuators. The details of ionic soft actuator electrodes made of carbon‐based nanomaterials are then provided. Additionally, a summary of applications for flexible intelligent devices is provided. Finally, suggestions for challenges and prospects are made to offer direction and inspiration for further development.

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“…It can predict IPMC displacement, [14,104,105,111,112,[114][115][116][117][118][119]122] optimize IPMC performance, [114,121,122] and develop IPMC-based devices. [14,18,118,123] 4.3. Models Based on Thermodynamic Theory…”

Section: Research On the Structural Characteristics Of Ipmcmentioning

confidence: 99%

“…It can predict IPMC displacement, [ 14,104,105,111,112,114–119,122 ] optimize IPMC performance, [ 114,121,122 ] and develop IPMC‐based devices. [ 14,18,118,123 ]…”

Section: Physical‐based Modelsmentioning

confidence: 99%

Application‐Oriented Modeling of Soft Actuator Ionic Polymer–Metal Composites: A Review

Jiang,

Lin,

et al. 2023

Advanced Intelligent Systems

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Compared to conventional actuators, the soft ionic polymer–metal composite (IPMC) actuator has significant advantages in specific applications, and the mathematical model of IPMC actuators is essential to comprehending and applying IPMCs. Due to the inherent characteristics of IPMCs and the impact of the manufacturing and measurement processes, it is challenging to developa reliable model. This article provides a comprehensive overview of the developments in IPMC actuator modeling. In particular, three types of models are examined and contrasted: the nonphysical identification model, the partial‐physical model, and the physical‐based model. In order to comprehend the current state of numerous IPMC actuator models, the characteristics, evolution, and functions of each type of model are discussed. Afterward, the evolution of the IPMC actuators’ applications is discussed. Finally, promising research directions for IPMC actuator models are identified that can more effectively facilitate the development of IPMC‐based devices.

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Enhanced Ionic Polymer–Metal Composites with Nanocomposite Electrodes for Restoring Eyelid Movement of Patients with Ptosis

Cited by 11 publications

References 63 publications

Raman Spectroscopy Characterization of Multi-Functionalized Liposomes as Drug-Delivery Systems for Neurological Disorders

Raman Spectroscopy Characterization of Multi-Functionalized Liposomes as Drug-Delivery Systems for Neurological Disorders

Carbon‐Based Nanomaterials Electrodes of Ionic Soft Actuators: From Initial 1D Structure to 3D Composite Structure for Flexible Intelligent Devices

Application‐Oriented Modeling of Soft Actuator Ionic Polymer–Metal Composites: A Review

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