Relevant bibliographies by topics / Bioinspired stimuli-Responsive organic electrolytes

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  1. Journal articles
  2. Dissertations / Theses

Academic literature on the topic 'Bioinspired stimuli-Responsive organic electrolytes'

Author: Grafiati
Published: 20 July 2024
Last updated: 31 July 2025

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Journal articles on the topic "Bioinspired stimuli-Responsive organic electrolytes"

1

Mohd Alauddin, Sakinah, Nurul Fadhilah Kamalul Aripin, Thamil Selvi Velayutham, and Alfonso Martinez-Felipe. "Liquid Crystalline Copolymers Containing Sulfonic and Light-Responsive Groups: From Molecular Design to Conductivity." Molecules 25, no. 11 (2020): 2579. http://dx.doi.org/10.3390/molecules25112579.

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In the search for novel smart multifunctional liquid crystalline materials, we report the synthesis, thermal and structural characterisation, and the conductivity, of a set of new block and statistical copolymers, containing light-responsive mesogenic groups (MeOAzB), polar sulfonic acids (AMPS), and methyl(methacrylate) groups (MMA). By using a cascade of reversible addition-fragmentation chain polymerisations, RAFT, we have tailored different side-chain polymeric structures by controlling monomer composition (MeOAzB/AMPS/MMA) and configuration. We have yielded simultaneous liquid crystalline
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2

He, Feng, Sitong Chen, Ruili Zhou, Hanyu Diao, Yangyang Han, and Xiaodong Wu. "Bioinspired Passive Tactile Sensors Enabled by Reversible Polarization of Conjugated Polymers." Nano-Micro Letters 17, no. 1 (2024). http://dx.doi.org/10.1007/s40820-024-01532-z.

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AbstractTactile perception plays a vital role for the human body and is also highly desired for smart prosthesis and advanced robots. Compared to active sensing devices, passive piezoelectric and triboelectric tactile sensors consume less power, but lack the capability to resolve static stimuli. Here, we address this issue by utilizing the unique polarization chemistry of conjugated polymers for the first time and propose a new type of bioinspired, passive, and bio-friendly tactile sensors for resolving both static and dynamic stimuli. Specifically, to emulate the polarization process of natur
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3

Giordano, Goffredo, Marco Carlotti, and Barbara Mazzolai. "A Perspective on Cephalopods Mimicry and Bioinspired Technologies toward Proprioceptive Autonomous Soft Robots." August 5, 2021. https://doi.org/10.1002/admt.202100437.

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Octopus skin is an amazing source of inspiration for bioinspired sensors, actuators and control solutions in soft robotics. Soft organic materials, biomac-romolecules and protein ingredients in octopus skin combined with a distrib-uted intelligence, result in adaptive displays that can control emerging optical behavior, and 3D surface textures with rough geometries, with a remarkably high control speed (≈ms). To be able to replicate deformable and compliant materials capable of translating mechanical perturbations in molecular and structural chromogenic outputs, could be a glorious achie
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4

Gao, Qiaofeng, Pengju Pan, Guorong Shan, and Miao Du. "Bioinspired Stimuli‐Responsive Hydrogel with Reversible Switching and Fluorescence Behavior Served as Light‐Controlled Soft Actuators." Macromolecular Materials and Engineering, August 25, 2021, 2100379. http://dx.doi.org/10.1002/mame.202100379.

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Dissertations / Theses on the topic "Bioinspired stimuli-Responsive organic electrolytes"

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Pung, Hélène. "Cristaux liquides ioniques thermotropes : Relations structure/propriétés de transport ionique." Electronic Thesis or Diss., Université Grenoble Alpes, 2024. http://www.theses.fr/2024GRALV007.

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Développer des études multi-échelles spatiales (nano/méso/micro-macroscopiques) et temporelles est crucial pour comprendre, maîtriser et piloter les relations liant la structure aux propriétés de transport ionique de matériaux fonctionnels hiérarchiquement auto-assemblés. C’est selon ces lignes de force que ce travail exploratoire se positionne pour relever les défis scientifiques associés. Il vise notamment à rassembler des éléments de compréhension pour générer de familles d'électrolytes à conduction (cat/an)ionique ajustables de par leur conception et pouvant être mises en œuvre par des pro
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