New horizons in smart plant sensors: key technologies, applications, and prospects DOI Creative Commons
Fucheng Zhang, Denghua Li,

Ganqiong Li

et al.

Frontiers in Plant Science, Journal Year: 2025, Volume and Issue: 15

Published: Jan. 7, 2025

As the source of data acquisition, sensors provide basic support for crop planting decision management and play a foundational role in developing smart planting. Accurate, stable, deployable on-site make intelligent monitoring various scenarios possible. Recent breakthroughs plant advanced rapid development manufacturing artificial intelligence (AI) have driven towards miniaturization, intelligence, multi-modality. This review outlines key technologies new sensors, such as micro-nano technology, flexible electronics micro-electromechanical system technology. The latest technological frontiers trends sensor principles, fabrication processes, performance parameters soil different segmented are systematically expounded. Finally, future opportunities, challenges, prospects discussed. We anticipate that introducing like nanotechnology AI will rapidly radically revolutionize accuracy agricultural leading to levels innovation.

Language: Английский

Internet of Things‐Enabled Food and Plant Sensors to Empower Sustainability DOI Creative Commons
Matin Ataei Kachouei, Ajeet Kaushik, Md. Azahar Ali

et al.

Advanced Intelligent Systems, Journal Year: 2023, Volume and Issue: 5(12)

Published: Oct. 10, 2023

To promote sustainability, this review explores: 1) the utilization of affordable high‐performance sensors that can enhance food safety and quality, plant growth, disease management 2) Internet Things (IoT)‐supported to empower farmers, stakeholders, agro‐food industries via rapid testing predictive analysis based on sensing generated informatics using artificial intelligence (AI). The performance such is noticeable, but technology still not suitable be used in real applications owing lack focus, scalability, well‐coordinated research, regulations. cover gap, carefully critically analyzes state‐of‐the‐art technologies developed for quality assurance (i.e., contaminants, toxins, packaging testing) growth monitoring phenotyping, stresses, volatile organic components, nutrient levels, hormones, pathogens) along with possible challenges. following has been proposed future research: promoting optimized combination green units supported by IoT perform at location, considering remote urban areas as a key analyzing AI should also focus risk assessment understanding optimizing necessary majors. Finally, perspectives IoT‐enabled sensors, their real‐world limitations, are discussed.

Language: Английский

Citations

51

Advancements in Metal‐Organic, Enzymatic, and Nanocomposite Platforms for Wireless Sensors of the Next Generation DOI
Brij Mohan,

Virender Virender,

Rakesh Kumar Gupta

et al.

Advanced Functional Materials, Journal Year: 2024, Volume and Issue: 34(45)

Published: June 12, 2024

Abstract Advanced wireless sensors, incorporating metal‐organic frameworks (MOFs), enzymatic systems, and nanocomposites, offer unparalleled solutions for monitoring analytes human physiological signals. These cutting‐edge when used with external devices, enable real‐time of physicochemical processes within the body, thereby enhancing understanding complex biological systems. This study presents advancements in sensor development, fabrication techniques, user‐friendly protocols. The performance these sensors is evaluated based on their selectivity, sensitivity, detection limits. Moreover, this article explores limitations, challenges, key strategies to enhance analyte recognition from onsite environmental species, ensuring point‐of‐care safety.

Language: Английский

Citations

44

MXene-Based Micro-Supercapacitors: Ink Rheology, Microelectrode Design and Integrated System DOI
Haichao Huang, Weiqing Yang

ACS Nano, Journal Year: 2024, Volume and Issue: 18(6), P. 4651 - 4682

Published: Feb. 2, 2024

MXenes have shown great potential for micro-supercapacitors (MSCs) due to the high metallic conductivity, tunable interlayer spacing and intercalation pseudocapacitance. In particular, negative surface charge hydrophilicity of make them suitable various solution processing strategies. Nevertheless, a comprehensive review MXene MSCs has not been conducted. this review, we present summary state-of-the-art in terms ink rheology, microelectrode design integrated system. The formulation rheological behavior different strategies, which are essential quality printed/coated films, presented. effects its compounds, 3D electrode structure, asymmetric on electrochemical properties discussed detail. Equally important, summarize system intelligent applications current challenges prospects development high-performance MSCs.

Language: Английский

Citations

26

Applications of MXenes in wearable sensing: Advances, challenges, and prospects DOI
Ruipeng Chen,

Xuexia Jia,

Huanying Zhou

et al.

Materials Today, Journal Year: 2024, Volume and Issue: 75, P. 359 - 385

Published: May 10, 2024

Language: Английский

Citations

22

Advancements in Passive Wireless Sensing Systems in Monitoring Harsh Environment and Healthcare Applications DOI Creative Commons
Wei Yue,

Yunjian Guo,

Jong‐Chul Lee

et al.

Nano-Micro Letters, Journal Year: 2025, Volume and Issue: 17(1)

Published: Jan. 9, 2025

Abstract Recent advancements in passive wireless sensor technology have significantly extended the application scope of sensing, particularly challenging environments for monitoring industry and healthcare applications. These systems are equipped with battery-free operation, connectivity, designed to be both miniaturized lightweight. Such features enable safe, real-time industrial support high-precision physiological measurements confined internal body spaces on wearable epidermal devices. Despite exploration into diverse environments, development a systematic comprehensive research framework system architecture remains elusive, which hampers further optimization these systems. This review, therefore, begins an examination scenarios, progresses evaluate current architectures, discusses function each component—specifically, module, communication model, readout module—within context key implementations target sensing Furthermore, we present case studies that demonstrate feasibility proposed classified components derived from this approach. By outlining trajectory technologies, paper aims establish foundation more advanced, user-friendly

Language: Английский

Citations

4

Wearable electrochemical sensors for plant small-molecule detection DOI
Shenghan Zhou,

Jin Zhou,

Yuxiang Pan

et al.

Trends in Plant Science, Journal Year: 2023, Volume and Issue: 29(2), P. 219 - 231

Published: Dec. 8, 2023

Language: Английский

Citations

32

Wearable sensor supports in‐situ and continuous monitoring of plant health in precision agriculture era DOI Creative Commons
Xiaohong Li,

Meng‐Zhao Li,

Jingyi Li

et al.

Plant Biotechnology Journal, Journal Year: 2024, Volume and Issue: 22(6), P. 1516 - 1535

Published: Jan. 6, 2024

Summary Plant health is intricately linked to crop quality, food security and agricultural productivity. Obtaining accurate plant information of paramount importance in the realm precision agriculture. Wearable sensors offer an exceptional avenue for investigating status fundamental science, as they enable real‐time continuous in‐situ monitoring physiological biomarkers. However, a comprehensive overview that integrates critically assesses wearable across various facets, including their elements, classification, design, sensing mechanism, fabrication, characterization application, remains elusive. In this study, we provide meticulous description systematic synthesis recent research progress sensor properties, technology application information. This work endeavours serve guiding resource utilization sensors, empowering advancement within agriculture paradigm.

Language: Английский

Citations

16

Applications of Nanomaterials in RFID Wireless Sensor Components DOI Creative Commons
Sojeong Roh, Trong Danh Nguyen, Jun Seop Lee

et al.

Applied Sciences, Journal Year: 2024, Volume and Issue: 14(3), P. 1216 - 1216

Published: Jan. 31, 2024

Radio Frequency Identification (RFID) technology, capable of wirelessly processing large amounts information, is gaining attention with the advancement IoT technology. RFID systems can be utilized as Wireless Sensor Network (WSN) technology by introducing sensing materials responsive to external environmental stimuli. To achieve effective information communication and capabilities, various types nanomaterials are being used components sensors. This paper provides an overview sensor system in their composition. Polymers that flexibility attracting more user-friendly substrates demand for them increases wearable market. Additionally, advancements inkjet printing allowing cost-effective simple production components, introduce inks manufacturing methods utilizing such metal nanoparticles, carbon materials, composites. Furthermore, enable detection environments high sensitivity a wide range. Consequently, wireless variety actively many applications. By analyzing current research progress problems faced this suggests future directions its development next-generation system.

Language: Английский

Citations

12

All-in-one self-powered wearable biosensors systems DOI Creative Commons
Qianying Li, Mingyuan Gao, Xueqian Sun

et al.

Materials Science and Engineering R Reports, Journal Year: 2025, Volume and Issue: 163, P. 100934 - 100934

Published: Feb. 8, 2025

Language: Английский

Citations

2

Monolayer fullerene network: A promising material for VOCs sensor DOI
Xiao Chang, Xianghong Liu, Wei Zheng

et al.

Applied Surface Science, Journal Year: 2023, Volume and Issue: 637, P. 157909 - 157909

Published: June 29, 2023

Language: Английский

Citations

18