With the development of 5G and Internet of Things (IoT), the era of big data‐driven product
design is booming. In addition, artificial intelligence (AI) is also emerging and evolving by …

Soil sensors and plant wearables play a critical role in smart and precision agriculture via
monitoring real‐time physical and chemical signals in the soil, such as temperature …

The performance and integration density of silicon integrated circuits (ICs) have progressed
at an unprecedented pace in the past 60 years. While silicon ICs thrive at low‐power high …

The rapidly growing demand for humidity sensing in various applications such as
noninvasive epidermal sensing, water status tracking of plants, and environmental …

Nanobiotechnology has the potential to enable smart plant sensors that communicate with
and actuate electronic devices for improving plant productivity, optimize and automate water …

Emerging plant diseases, caused by pathogens, pests, and climate change, are critical
threats to not only the natural ecosystem but also human life. To mitigate crop loss due to …

The rising global human population and increased environmental stresses require a higher
plant productivity while balancing the ecosystem using advanced nanoelectronic …

Determination of plant stresses such as infections by plant pathogens is currently dependent
on time-consuming and complicated analytical technologies. Here, we report a leaf …

Life in our planet is highly dependent on plants as they are the primary source of food,
regulators of the atmosphere, and providers of a variety of materials. In this work, we review …

The devastating effects of global climate change on crop production and exponential
population growth pose a major challenge to agricultural yields. To cope with this problem …