Optofluidic, as an emerging technology that combines photons and microfluidics, has
become a powerful, intelligent, and universal sensing platform in the field of bio‐chemical …

Herein, recent progress in fiber optofluidic lasers and their applications in biochemical
detection are reviewed. The unique properties of optical fibers are introduced for the …

A biolaser utilizes biological materials as part of its gain medium and/or part of its cavity. It
can also be a micro‐or nanosized laser embedded/integrated within biological materials …

Photonic sensors that are able to detect and track biochemical molecules offer powerful
tools for information acquisition in applications ranging from environmental analysis to …

Optofluidic lasers are emerging building blocks with immense potential in the development
of miniaturized light sources, integrated photonics, and sensors. The capability of on …

Turbidimetric inhibition immunoassay (TIIA) is a classic immunodiagnostic method that has
been extensively used for biomarker detection. However, the low sensitivity of this technique …

Abstract Lab-in-a-Fiber (LIF), a counterpart of Lab-on-a-chip, however, deployed within the
cylindrical optical fiber geometry, emerges as a promising approach into the development of …

Optofluidic lasers (OFLs) are an emerging technological platform for biochemical sensing,
and their good performance especially high sensitivity has been demonstrated. However …

Optofluidics is an interdisciplinary domain merging optics and microfluidics and has driven
significant progress in the development of small-scale, high-performance optical biosensors …

Ultrasensitive mid-infrared absorption spectroscopy is demonstrated by the use of a novel
silica-based hollow-core negative curvature fiber (HC-NCF). The HC-NCF used in this article …