Research of Biologically Active Polymeric Hydrogel Transdermal Materials

Lebedeva, Katerina; Cherkashina, Аnna; Tykhomyrova, Tetyana; Moiseev, Viktor; Lebedev, V.V.

doi:10.1007/978-3-031-32774-2_21

Cited by 5 publications

(2 citation statements)

References 13 publications

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“…According to [60], these hydrogels attached to the human body demonstrate the unique advantages of being able to introduce drugs into hard-to-reach places, local and long-term delivery, as well as reducing the dose of the drug delivered, as well as high adhesion to mucous surfaces. Recently, such smart biopolymer hydrogels with a reversible liquid-viscoelastic hydrogel phase transition depending on temperature, prepared on the basis of gelatin, hydroxypropyl cellulose and sodium alginate and modified with lignite humic acids, were shown in [65][66][67]. Since the shape and form of biopolymer hydrogel can be customized using molding and fabrication technologies [59], a promising direction is to create bioadhesive hydrogel devices for conformally attaching a skin-friendly, biocompatible patch for precise health monitoring, drug delivery, or wound healing [12].…”

Section: Smart Home Iot Actuators Based On Biopolymer Hydrogelsmentioning

confidence: 99%

Biopolymer-based sustainable Internet of Things for smart homes

Lebedev,

Lebedeva,

Cherkashina

et al. 2024

Preprint

Self Cite

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In the infrastructure of the future, based on intelligent computerized systems and control and monitoring devices, the smart home is part of the Internet of Things (IoT). However, in addition to the need to address energy consumption, the widespread adoption of smart homes may also exacerbate the growing problem of increasing amounts of non-recyclable e-waste from IoT devices. Compared to synthetic plastics, biopolymers offer many unique advantages such as robust structure, light weight, mechanical flexibility, biocompatibility, biodegradability and renewability. Biopolymers, which are abundant in natural products such as cellulose, silk fibroin, polylactic acid, chitosan, collagen, keratin, alginate, starch and gelatin, have great promise for the production of environmentally friendly Internet of Things devices. They are ideal candidates for the use of low-temperature sol-gel coating and ink-printing processes to facilitate the development of low-cost, large-area flexible electronic devices. This work presents developments known from the literature, as well as the results of original research on the use of biopolymer materials to create flexible, wearable and textile electronic devices, such as sensors, energy storage devices and nanogenerators, soft hydrogel actuators and wireless communication devices that are promising for the Internet of Things but have not yet been implemented in smart homes.

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Section: Smart Home Iot Actuators Based On Biopolymer Hydrogelsmentioning

confidence: 99%

Biopolymer-based sustainable Internet of Things for smart homes

Lebedev,

Lebedeva,

Cherkashina

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

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“…Innovation takes center stage with studies on robust methods for controlling casting processes and casting quality [158], as well as the technology behind forming wear-resistant thermite alloy layers through high-temperature synthesis [159]. The intersection of material science and medical applications is also explored, as evidenced by the design and research of biologically active polymeric hydrogel transdermal materials modified by humic acid [160].…”

Section: Proceedings Structure 41 Advancements In Materials Science A...mentioning

confidence: 99%

4th International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters

Semerikov,

Chukharev,

Sakhno

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

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This paper presents the preface of the proceedings for the 4th International Conference on Sustainable Futures: Environmental, Technological, Social, and Economic Matters (ICSF 2023), a multidisciplinary event that explores the challenges and opportunities of sustainability in various domains. The preface outlines the conference’s objectives, themes, workshops, and topics, as well as its contribution to advancing sustainable development and global dialogue. It also acknowledges the efforts and inputs of various stakeholders who have made the conference possible, especially in light of the pandemic situation. Furthermore, it thanks IOP Publishing for its support and flexibility in facilitating open access publishing. The paper concludes by looking forward to future editions of ICSF and the ongoing quest for a more sustainable and interconnected world. The paper invites readers to delve into the rich and diverse content that shapes this influential conference.

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Biopolymer-based sustainable Internet of Things for smart homes

Lebedev,

Lebedeva,

Cherkashina

et al. 2024

Discov Civ Eng

View full text Add to dashboard Cite

In the infrastructure of the future, based on intelligent computerized systems and control and monitoring devices, the smart home is part of the Internet of Things (IoT). However, in addition to the need to address energy consumption, the widespread adoption of smart homes may also exacerbate the growing problem of increasing amounts of non-recyclable e-waste from IoT devices. Compared to synthetic plastics, biopolymers offer many unique advantages such as robust structure, light weight, mechanical flexibility, biocompatibility, biodegradability and renewability. Biopolymers, which are abundant in natural products such as cellulose, silk fibroin, polylactic acid, chitosan, collagen, keratin, alginate, starch and gelatin, have great promise for the production of environmentally friendly Internet of Things devices. They are ideal candidates for the use of low-temperature sol–gel coating and ink-printing processes to facilitate the development of low-cost, large-area flexible electronic devices. This work presents developments known from the literature, as well as the results of original research on the use of biopolymer materials to create flexible, wearable and textile electronic devices, such as sensors, energy storage devices and nanogenerators, soft hydrogel actuators and wireless communication devices that are promising for the Internet of Things but have not yet been implemented in smart homes. Graphical Abstract

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Research of Biologically Active Polymeric Hydrogel Transdermal Materials

Cited by 5 publications

References 13 publications

Biopolymer-based sustainable Internet of Things for smart homes

Biopolymer-based sustainable Internet of Things for smart homes

4th International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters

Biopolymer-based sustainable Internet of Things for smart homes

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