The Function of HAK as K+ Transporter and AKT as Inward-Rectifying Agent in the K+ Channel

Chatterjee, Moumita; Ghosh, Pallabi; Sen, S. K.; Sinha, Dwaipayan; Ganguly, Sharmistha

doi:10.1007/978-981-19-6103-8_11

Cited by 2 publications

(3 citation statements)

References 117 publications

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“…Due to continuous manufacturing capability, scalability, low cost, and wide adaptability from soft polymers to rigid ceramics, high-throughput 3D printing technology has already been successfully used to construct complex structures, especially functional textiles for wearable electronics. [285][286][287][288][289][290] Initially, Zhang et al directly printed coaxial CNTs@SF fiber-based patterns on a textile as the energy-harvest and energy-storage textile by using CNT and SF inks along with a 3D printer (Figure 7c). [291] Through changing the printing-ink combinations, this fabrication strategy is also adaptable to other functional textiles and paves the way for the facile fabrication of e-textile with various integrated requirements.…”

Section: The Direct 3d Formation Of Functional Materialsmentioning

confidence: 99%

“…Due to continuous manufacturing capability, scalability, low cost, and wide adaptability from soft polymers to rigid ceramics, high‐throughput 3D printing technology has already been successfully used to construct complex structures, especially functional textiles for wearable electronics. [ 285–290 ] Initially, Zhang et al. directly printed coaxial CNTs@SF fiber‐based patterns on a textile as the energy‐harvest and energy‐storage textile by using CNT and SF inks along with a 3D printer ( Figure c).…”

Section: Fabrication Of Functional Textilesmentioning

confidence: 99%

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Functional Textiles with Smart Properties: Their Fabrications and Sustainable Applications

Zhang

Xia

et al. 2023

Adv Funct Materials

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Benefiting from inherent lightweight, flexibility, and good adaptability to human body, functional textiles are attracting tremendous attention to cope with wearable issues in sustainable applications around human beings. In this feature article, a comprehensive and thoughtful review is proposed regarding research activities of functional textiles with smart properties. Specifically, a brief exposition of highlighting the significance and rising demands of novel textiles throughout the human society is begun. Next, a systematic review is provided about the fabrication of functional textiles from 1D spinning, 2D modification, and 3D construction, their diverse functionality as well as sustainable applications, showing a clear picture of evolved textiles to the readers. How to engineer the compositions, structures, and properties of functional textiles is elaborated to achieve different smart properties. All these tunable, upgraded, and versatile properties make the developed textiles well suited for extensive applications ranging from environmental monitoring or freshwater access to personal protection and wearable power supply. Finally, a simple summary and critical analysis is drawn, with emphasis on the insight into remaining challenges and future directions. With worldwide efforts, advance and breakthrough in textile functionalization expounded in this review will promote the revolution of smart textiles for intelligence era.

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Section: The Direct 3d Formation Of Functional Materialsmentioning

confidence: 99%

Section: Fabrication Of Functional Textilesmentioning

confidence: 99%

Functional Textiles with Smart Properties: Their Fabrications and Sustainable Applications

Zhang

Xia

et al. 2023

Adv Funct Materials

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“…[96,98,271,272] The readers are referred to some excellent recent reviews of AM techniques for further details. [252,253,273] Soft polymeric FGMs can be prepared via AM by spatially varying the material composition [108,118,192] or by controlling the throughput. [94,95,257] Figure 8a,b shows some of the applications of AM to fabricate FGMs reported in the literature.…”

Section: Overview Of Fabrication Techniques For Manmade Fgmsmentioning

confidence: 99%

Soft Functionally Gradient Materials and Structures – Natural and Manmade: A Review

Pragya

Ghosh

2023

Advanced Materials

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Functionally gradient materials (FGM) have gradual variations in their properties along one or more dimensions due to local compositional or structural distinctions by design. Traditionally, hard materials (e.g., metals, ceramics) have been used to design and fabricate FGMs; however, there has been increasing interest in polymer‐based soft and compliant FGMs mainly because of their potential application in the human environment. Soft FGMs are not only ideally suitable to manage interfacial problems in dissimilar materials used in many emerging devices and systems for human interaction, such as soft robotics and electronic textiles and beyond. Soft systems are ubiquitous in our everyday lives; they are resilient and can easily deform, absorb energy and adapt to changing environments. Here, we discuss the basic design and functional principles of biological FGMs and their manmade counterparts using representative examples. The remarkable multifunctional properties of natural FGMs resulting from their sophisticated hierarchical structures, built from a relatively limited choice of materials, offer a rich source of new design paradigms and manufacturing strategies for manmade materials and systems for emerging technological needs. Finally, we highlight the challenges and potential pathways to leverage soft materials' facile processability and unique properties to wards functional FGMs.This article is protected by copyright. All rights reserved

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The Function of HAK as K+ Transporter and AKT as Inward-Rectifying Agent in the K+ Channel

Cited by 2 publications

References 117 publications

Functional Textiles with Smart Properties: Their Fabrications and Sustainable Applications

Functional Textiles with Smart Properties: Their Fabrications and Sustainable Applications

Soft Functionally Gradient Materials and Structures – Natural and Manmade: A Review

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