Progress in wearable electronics/photonics—Moving toward the era of artificial intelligence and internet of things
The past few years have witnessed the significant impacts of wearable electronics/photonics
on various aspects of our daily life, for example, healthcare monitoring and treatment …
on various aspects of our daily life, for example, healthcare monitoring and treatment …
Tunable optical properties of 2D materials and their applications
Recent efforts have been heavily devoted to the development of next‐generation
optoelectronic devices based on 2D materials, due to their unique optical properties that are …
optoelectronic devices based on 2D materials, due to their unique optical properties that are …
Emerging wearable chemical sensors enabling advanced integrated systems toward personalized and preventive medicine
With the rise of silicon-based semiconductor technology in the 1950s, people's lives have
been dramatically transformed by the information technology industry. 1 For instance …
been dramatically transformed by the information technology industry. 1 For instance …
Progress of optomechanical micro/nano sensors: a review
Optomechanical sensing based on the coupling between mechanical motions and optical
resonances has attracted huge interest in sensor applications due to its small footprint, high …
resonances has attracted huge interest in sensor applications due to its small footprint, high …
Progress of infrared guided-wave nanophotonic sensors and devices
Nanophotonics, manipulating light–matter interactions at the nanoscale, is an appealing
technology for diversified biochemical and physical sensing applications. Guided-wave …
technology for diversified biochemical and physical sensing applications. Guided-wave …
High‐responsivity mid‐infrared black phosphorus slow light waveguide photodetector
Black phosphorus (BP) offers unique opportunities for mid‐infrared (MIR) waveguide
photodetectors due to its narrow direct bandgap and layered lattice structure. Further …
photodetectors due to its narrow direct bandgap and layered lattice structure. Further …
Suspended silicon waveguide platform with subwavelength grating metamaterial cladding for long-wave infrared sensing applications
Abstract Long-wave infrared (LWIR, 6–14 µm) processes enormous potential for
chem/biosensing as it covers abundant molecular absorption fingerprints. Waveguides …
chem/biosensing as it covers abundant molecular absorption fingerprints. Waveguides …
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 …
Heterogeneous wafer bonding technology and thin-film transfer technology-enabling platform for the next generation applications beyond 5G
Wafer bonding technology is one of the most effective methods for high-quality thin-film
transfer onto different substrates combined with ion implantation processes, laser irradiation …
transfer onto different substrates combined with ion implantation processes, laser irradiation …
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 …