The flat endface of an optical fiber tip is an emerging light-coupled microscopic platform that
combines fiber optics with planar micro-and nanotechnologies. Since different materials and …

This review presents an overview of “Lab on Fiber” technologies and devices with special
focus on the design and development of advanced fiber optic nanoprobes for biological …

The integration of microfluidics and photonic biosensors has allowed achievement of
several laboratory functions in a single chip, leading to the development of photonic lab-on …

For sensors based on the electromagnetic resonance whether the surface plasmon
resonance (SPR) or localized surface plasmon resonance (LSPR), enhancing the light …

The flat tip of an optical fiber is a unique and unconventional platform for micro and
nanotechnologies. The small cross‐section and large aspect ratio of the fiber provide an …

The integration of metasurfaces on the tip of optical fibers enables advanced wavefront
manipulations in Lab‐on‐Fiber application scenarios, and brings about new degrees of …

Optical fiber technology has significantly bolstered the growth of photonics applications in
basic life sciences research and in biomedical diagnosis, therapy, monitoring, and surgery …

Femtosecond lasers have revolutionized the processing of materials, since their ultrashort
pulse width and extremely high peak intensity allows high-quality micro-and nanofabrication …

Optical sensing has undergone tremendous advancements with the advent of photonic
crystal fibers (PCFs). Similarly, optical sensing utilizing surface plasmon resonance (SPR) …

“Lab on Fiber” technology integrates different micro-and nanoscale structures or materials
onto optical fibers to create additional functionality. With the advanced femtosecond (Fs) …