Artificial intelligence enhanced sensors-enabling technologies to next-generation healthcare and biomedical platform
The fourth industrial revolution has led to the development and application of health
monitoring sensors that are characterized by digitalization and intelligence. These sensors …
monitoring sensors that are characterized by digitalization and intelligence. These sensors …
Recent progress in silicon‐based photonic integrated circuits and emerging applications
In recent years, with the further ministration of the semiconductor device in integrated
circuits, power consumption and data transmission bandwidth have become insurmountable …
circuits, power consumption and data transmission bandwidth have become insurmountable …
Midinfrared spectroscopic analysis of aqueous mixtures using artificial-intelligence-enhanced metamaterial waveguide sensing platform
As miniaturized solutions, mid-infrared (MIR) waveguide sensors are promising for label-free
compositional detection of mixtures leveraging plentiful absorption fingerprints. However …
compositional detection of mixtures leveraging plentiful absorption fingerprints. However …
Larger-than-unity external optical field confinement enabled by metamaterial-assisted comb waveguide for ultrasensitive long-wave infrared gas spectroscopy
Nanophotonic waveguides that implement long optical pathlengths on chips are promising
to enable chip-scale gas sensors. Nevertheless, current absorption-based waveguide …
to enable chip-scale gas sensors. Nevertheless, current absorption-based waveguide …
MOF/Polymer-Integrated Multi-Hotspot Mid-Infrared Nanoantennas for Sensitive Detection of CO2 Gas
Metal–organic frameworks (MOFs) have been extensively used for gas sorption, storage and
separation owing to ultrahigh porosity, exceptional thermal stability, and wide structural …
separation owing to ultrahigh porosity, exceptional thermal stability, and wide structural …
Loss‐induced phase transition in mid‐infrared plasmonic metamaterials for ultrasensitive vibrational spectroscopy
Metamaterials have proven their ability to possess extraordinary physical properties distinct
from naturally available materials, leading to exciting sensing functionalities and …
from naturally available materials, leading to exciting sensing functionalities and …
Mid‐infrared silicon‐on‐lithium‐niobate electro‐optic modulators toward integrated spectroscopic sensing systems
Mid‐infrared spectroscopy is an emerging technique in various applications such as
molecule identification and label‐free chemical sensing. Integrated photonic platforms have …
molecule identification and label‐free chemical sensing. Integrated photonic platforms have …
Advances in machine‐learning enhanced nanosensors: From cloud artificial intelligence toward future edge computing at chip level
Machine‐learning‐enhanced nanosensors are rapidly emerging as a promising solution in
the field of sensor technology, as traditional sensors encounter limitations of data analysis in …
the field of sensor technology, as traditional sensors encounter limitations of data analysis in …
MEMS enabled suspended silicon waveguide platform for long-wave infrared modulation applications
Abstract Long-wave infrared (LWIR, 6–14 µm) is an important wavelength range as it covers
abundant vibrational molecular fingerprints that can be used for gas/liquid sensing and …
abundant vibrational molecular fingerprints that can be used for gas/liquid sensing and …
[HTML][HTML] Tunable terahertz metamaterial with multi-resonance characteristic for refractive index sensing application
H Sun, YS Lin - APL Materials, 2023 - pubs.aip.org
A tunable terahertz (THz) metamaterial (TTM) composed of double connected semicircle-
shaped rings and two segregated metallic bars is presented. Through the manipulation of …
shaped rings and two segregated metallic bars is presented. Through the manipulation of …