Salinity is
an indispensable parameter for various applications such as biomedical
diagnostics, environmental chemical analysis, marine monitoring, etc.
Miniaturized salinity sensors have significant potential in portable
applications in various scenarios and designs with highly desirable
features of convenience, reliability, economy, and high sensitivity
and also the capability of real-time measurements. Herein, we demonstrate
a highly refractive index-sensitive sensor based on a microscale III-nitride
chip that consists of a light emitter and a photodetector. This highly
monolithically integrated chip shows an excellent sensitivity of salinity
of 2606 nA/(mol/L) (or 446 nA/%) and a response time of 0.243 s. In
addition, wireless communication technologies can be easily integrated
with the sensing device, which enables automatic remote control for
data collection and postprocessing. Remarkably, a polymer-based antifouling
coating on the surface of the sensing chip has been established to
significantly improve its long-term stability in mimicked marine water.
The demonstrated ultrasensitive, ultracompact, cost-effective, fast
response, wireless-compatible, and easy-to-use features endow the
current device with a huge potential for in situ salinity sensing
under varying environmental conditions.