Internet of Things‐Enabled Food and Plant Sensors to Empower Sustainability

Abstract: To promote sustainability, this review explores: 1) the utilization of affordable high‐performance sensors that can enhance food safety and quality, plant growth, and disease management and 2) the Internet of Things (IoT)‐supported sensors to empower farmers, stakeholders, and agro‐food industries via rapid testing and predictive analysis based on sensing generated informatics using artificial intelligence (AI). The performance of such sensors is noticeable, but this technology is still not suitable to be used… Show more

“…7,8 Nano-scale sensors including gas [9][10][11] and bio-molecule 12,13 sensors, and photodetectors, 14,15 offer numerous benefits, such as cost-effectiveness, user-friendliness, high signal-to-noise ratio, stability, and energy efficiency. [16][17][18] Despite these merits, many of these sensors struggle to reach sufficient selectivity in real operating environments. In the case of semiconductor-based gas molecule sensors, this is a consequence of their working principle, which relies on the reaction of the target analytes with adsorbed oxygen from the air, the usual medium for most applications.…”

“…7,8 Nano-scale sensors including gas 9–11 and bio-molecule 12,13 sensors, and photodetectors, 14,15 offer numerous benefits, such as cost-effectiveness, user-friendliness, high signal-to-noise ratio, stability, and energy efficiency. 16–18…”

Advances in flame synthesis of nano-scale architectures for chemical, biomolecular, plasmonic, and light sensing

“…7,8 Nano-scale sensors including gas [9][10][11] and bio-molecule 12,13 sensors, and photodetectors, 14,15 offer numerous benefits, such as cost-effectiveness, user-friendliness, high signal-to-noise ratio, stability, and energy efficiency. [16][17][18] Despite these merits, many of these sensors struggle to reach sufficient selectivity in real operating environments. In the case of semiconductor-based gas molecule sensors, this is a consequence of their working principle, which relies on the reaction of the target analytes with adsorbed oxygen from the air, the usual medium for most applications.…”

“…7,8 Nano-scale sensors including gas 9–11 and bio-molecule 12,13 sensors, and photodetectors, 14,15 offer numerous benefits, such as cost-effectiveness, user-friendliness, high signal-to-noise ratio, stability, and energy efficiency. 16–18…”

Advances in flame synthesis of nano-scale architectures for chemical, biomolecular, plasmonic, and light sensing

“…The development of technology such as cryopreservation has made it possible to store seeds for lengthy periods at extremely low temperatures, maintaining their genetic integrity and viability (Kaviani, 2011). Furthermore, the incorporation of digital technology, such as artificial intelligence and sensor networks, has made it possible to monitor seed storage conditions in real-time and take proactive measures to stop degradation (Ataei et al, 2023). In contemporary agriculture, sustainability has emerged as a guiding concept, and seed storage is no different.…”

A Review on Seed Storage Technology: Recent Trends and Advances in Sustainable Techniques for Global Food Security

An Integrated Framework for Smart Fogponics Indoor Gardening in Compact Living Spaces