A Wireless and Battery-Free Wearable Pressure Sensing System for Human–Machine Interaction and Health Monitoring

“…To avoid the harmful effects, chipless wireless sensors are preferred. The chipless sensors are a great alternative for inexpensive soil health monitoring as they are low-cost and have a high throughput . The challenge with current agricultural sensors is their size, which makes it difficult to deploy them in the fields.…”

“…The chipless sensors are a great alternative for inexpensive soil health monitoring as they are low-cost and have a high throughput. 35 The challenge with current agricultural sensors is their size, which makes it difficult to deploy them in the fields. Moreover, most of the sensors are made of nonbiodegradable materials such as RT/Duroids and FR4.…”

A Flexible and Biodegradable Graphene Oxide Antenna Sensor for Monitoring Subsoil Health

“…To avoid the harmful effects, chipless wireless sensors are preferred. The chipless sensors are a great alternative for inexpensive soil health monitoring as they are low-cost and have a high throughput . The challenge with current agricultural sensors is their size, which makes it difficult to deploy them in the fields.…”

“…The chipless sensors are a great alternative for inexpensive soil health monitoring as they are low-cost and have a high throughput. 35 The challenge with current agricultural sensors is their size, which makes it difficult to deploy them in the fields. Moreover, most of the sensors are made of nonbiodegradable materials such as RT/Duroids and FR4.…”

A Flexible and Biodegradable Graphene Oxide Antenna Sensor for Monitoring Subsoil Health

“…The distinctive structure of this material's thin layer results in a wide range of electron mobility, significantly improving its electrical conductivity. 11,12 MXenes have attracted significant attention in energy-related applications because of their highly adjustable surface chemistries, hydrophilic reactive surfaces, remarkable mechanical strength, fast ion diffusion capabilities, and great electrical conductivity. 13–16 Ti 3 C 2 T x has been successfully incorporated into several components of dye-sensitized solar cells (DSSCs), demonstrating its flexibility and ability to boost the performance.…”

Investigation and development of photocathodes using polyaniline Encapsulated Ti₃C₂T_x MXene nanosheets for dye-sensitized solar cells

A passive, reusable, and resonating wearable sensing system for on-demand, non-invasive, and wireless molecular stress biomarker detection