Optimized fabrication of L-Asp-Cu(II) Bio-MOF for enhanced vascularized bone regeneration

Chemical Engineering Journal, Journal Year: 2025, Volume and Issue: unknown, P. 159617 - 159617

Published: Jan. 1, 2025

Language: Английский

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Innovative Material-Based Wearable Non-Invasive Electrochemical Sweat Sensors towards Biomedical Applications

Nanomaterials, Journal Year: 2024, Volume and Issue: 14(10), P. 857 - 857

Published: May 14, 2024

Sweat is an accessible biofluid that provides useful physiological information about the body’s biomolecular state and systemic health. Wearable sensors possess various advantageous features, such as lightweight design, wireless connectivity, compatibility with human skin, make them suitable for continuous monitoring. electrochemical sweat can diagnose diseases monitor health conditions by detecting biomedical signal changes in sweat. This paper discusses state-of-the-art research field of wearable materials used their construction. It covers biomarkers present sweat, sensing modalities, techniques collection, ways to power these sensors. Innovative are categorized into three subcategories: detection, self-powering. These include substrates sensor fabrication, analyte detection electrodes, absorbent patches, microfluidic devices, self-powered devices. concludes forecasting future trends prospects material-based non-invasive

Language: Английский

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CO2 detection using microwave metasurface-based antennas covered with carbon nanotubes

Materials Science and Engineering B, Journal Year: 2025, Volume and Issue: 318, P. 118282 - 118282

Published: April 5, 2025

Language: Английский

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Design and Optimization of Fractal Multiband Antenna for mmWave Applications

Lecture notes in networks and systems, Journal Year: 2025, Volume and Issue: unknown, P. 315 - 320

Published: Jan. 1, 2025

Language: Английский

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Antenna systems for IoT applications: a review

Discover Sustainability, Journal Year: 2024, Volume and Issue: 5(1)

Published: Nov. 15, 2024

In smart homes, industrial automation, healthcare, agriculture, and environmental monitoring, IoT antenna systems improve communication efficiency dependability. affect network performance connection by affecting gain, directivity, bandwidth, efficiency, impedance matching. Dipole, patch, spiral, metamaterial-based, other types are tested in settings to identify their applicability, benefits, downsides. Current technology has challenges with frequency, size, weight, material choices, energy requiring new solutions. According the study, interference control, power consumption, dynamic adaptation research inadequate. Metamaterials, nanomaterials, 3D printing may circumvent these design limitations. AI machine learning can real-time optimization complex settings. The paper explores how standards regulatory frameworks system development ensure future designs meet a fast-growing market. For growing range of applications, this suggests more flexible reconfigurable antennas that function across numerous frequency bands. report emphasizes innovation durability, cut costs, scale manufacturing. This tackles key elements enable next generation technology's expanding needs increase networked devices' functionality, integration industries. comprehensive approach helps current trends concerns prepares for advancements, enabling smarter, connected, efficient technologies.

Language: Английский

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Development of wearable textile patch antenna 2.43 GHz for biomedical applications

International Journal of Advanced Technology and Engineering Exploration, Journal Year: 2024, Volume and Issue: 11(111)

Published: Feb. 29, 2024

Wearable technology combines electronic and computer technologies into clothing or devices for daily wear.Wearable include spectacles, watches, jewellery, caps, textiles.These gadgets can do functions like smartphones computers, as well offer sensory, tracking, scanning capabilities.This is a significant advancement in pervasive computing, allowing access to information from any location [1,2].Textile architectures feature inbuilt antennas have proven be vital of wearable device, garment-based wireless communication [3].

Language: Английский

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Evaluation of Antenna Designs for Wearable Technology: A Literature Review

Published: May 9, 2024

Research into improving the functionality and capacities of wearable technology has surged as a result its fast progress. The functioning is largely dependent on antenna design, which provides wireless connectivity communication. This study literature searches many online sources for pertinent research various designs technology. findings verified that materials vary based design being employed. An analysis was conducted gain, frequency, materials, sizes. review excels at synthesizing despite restricted resources.

Language: Английский

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Design and Simulation of Wearable Antennas for Healthcare

Advances in medical technologies and clinical practice book series, Journal Year: 2024, Volume and Issue: unknown, P. 163 - 200

Published: Sept. 13, 2024

This chapter provides an overview of designing and simulating wearable antennas for wireless body area networks (WBANs) remote healthcare monitoring. It covers key design considerations, simulation methodologies, experimental techniques. The discussion includes challenges such as antenna miniaturization, human effects, balancing performance with comfort wearability. Advances in computational electromagnetics prototyping techniques are highlighted, aiding accurate practical realization designs. Applications healthcare, like real-time patient monitoring, implantable devices, telemedical systems, explored. Future trends include the use advanced materials, intelligent reconfigurable antennas, arrays enhanced adaptability dynamic environments.

Language: Английский

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Horn Antenna on Chip Operating at 180 GHz Using the SiGe CMOS Process

Telecom, Journal Year: 2024, Volume and Issue: 5(2), P. 296 - 311

Published: April 8, 2024

This article proposes a chip antenna on millimeter-Waves. combined with TSMC 180 nm SiGe CMOS technology has the advantage of being small in size and is suitable for wireless communications. The multilayer architecture Horn implemented M4–M6 can meet both process reliability specifications radiation performance. results simulation show that maximum gain −4.2 dBi. return loss measurement are almost consistent results, bandwidth range 177.4–183 GHz. first describes production analyses impact parameters antenna, further compares it other designs. excellence this design solves problem large millimeter wave successfully reduces area. At same time, contribute to readers’ future optimization continued research directions, at time trends let readers understand stability measurement.

Language: Английский

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Sensitivity-Based Electromagnetic Performance Calculation Model for Radome-Covered Array Antennas

Electronics, Journal Year: 2024, Volume and Issue: 13(12), P. 2315 - 2315

Published: June 13, 2024

Antenna design and optimization must ensure robust electrical performance, making its analysis a crucial step in all antenna processes. Traditionally, this involves setting up various cases after establishing the calculation model, comparing performance of each case, summarizing impact relevant factors to guide optimization. However, method is time-consuming inefficient. This paper proposes sensitivity-based approach for analyzing using radome-covered array as an example. First, we derive formulas calculating antenna’s sensitivity current amplitude, element position, radome thickness. We then comparative experiments analyze traditional case enumeration method. Comparing conclusions both methods, find that they yield same results regarding performance. The proposed offers quantitative evaluation influencing provides more scientific systematic

Language: Английский

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