Real-time in situ monitoring of plant physiology is essential for establishing a phenotyping
platform for precision agriculture. A key enabler for this monitoring is a device that can be …

The microclimate surrounding a plant has major effect on its health and photosynthesis
process, where certain plants struggle in suboptimal environmental conditions and …

The advancement of plant phenomics by using optical imaging-based phenotyping
techniques has markedly improved breeding and crop management. However, there …

Noninvasive imaging sensors and computer vision approaches are key technologies to
quantify plant structure, physiological status, and performance. Today, imaging sensors …

This work reports a first-of-its-kind hybrid wearable physicochemical sensor suite that we call
PlantFit for simultaneous measurement of two key phytohormones, salicylic acid, and …

Communication with plants to understand their growth mechanisms and interaction with the
surrounding environment may improve production yield in agriculture and facilitate …

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 …

Wearable plant sensors hold tremendous potential for smart agriculture. We report a lower
leaf surface-attached multimodal wearable sensor for continuous monitoring of plant …

The boom of plant phenotype highlights the need to measure the physiological
characteristics of an individual plant. However, continuous real‐time monitoring of a plant's …

The excellent stretchability and biocompatibility of flexible sensors have inspired an
emerging field of plant wearables, which enable intimate contact with the plants to …