Aydin Sabouri scite author profile

The development of highly-sensitive miniaturized sensors that allow real-time quantification of analytes is highly desirable in medical diagnostics, veterinary testing, food safety, and environmental monitoring. Photonic Crystal Fiber Surface Plasmon Resonance (PCF SPR) has emerged as a highly-sensitive portable sensing technology for testing chemical and biological analytes. PCF SPR sensing combines the advantages of PCF technology and plasmonics to accurately control the evanescent field and light propagation properties in single or multimode configurations. This review discusses fundamentals and fabrication of fiber optic technologies incorporating plasmonic coatings to rationally design, optimize and construct PCF SPR sensors as compared to conventional SPR sensing. PCF SPR sensors with selective metal coatings of fibers, silver nanowires, slotted patterns, and D-shaped structures for internal and external microfluidic flows are reviewed. This review also includes potential applications of PCF SPR sensors, identifies perceived limitations, challenges to scaling up, and provides future directions for their commercial realization.

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Printable Nanophotonic Devices via Holographic Laser Ablation

Zhao

Yetisen

Sabouri

et al. 2015

ACS Nano

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Holography plays a significant role in applications such as data storage, light trapping, security, and biosensors. However, conventional fabrication methods remain time-consuming, costly, and complex, limiting the fabrication of holograms and their extensive use. Here, we demonstrate a single-pulse laser ablation technique to write parallel surface gratings and Fresnel zone plates. We utilized a 6 ns high-energy green laser pulse to form interference patterns to record a surface grating with 820 nm periodicity and asymmetric zone plate holograms on 4.5 nm gold-coated substrates. The holographic recording process was completed within seconds. The optical characteristics of the interference patterns have been computationally modeled, and well-ordered polychromatic diffraction was observed from the fabricated holograms. The zone plate showed a significant diffraction angle of 32° from the normal incident for the focal point. The nanosecond laser interference ablation for rapid hologram fabrication holds great potential in a vast range of optical devices.

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Holographic direct pulsed laser writing of two-dimensional nanostructures

et al. 2016

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Femtosecond laser directed fabrication of optical diffusers

et al. 2017

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Three-Dimensional Microstructured Lattices for Oil Sensing

et al. 2017

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Monitoring of environmental contamination including oil pollution is important to protect marine ecosystems. A wide range of sensors are utilized in petroleum industry to measure various parameters such as viscosity, pressure, and flow. Here, we create an optical lattice mesh structure that can be used as an oil sensor integrated with optical fiber probing. The principle of operation of the sensor was based on light scattering, where the tested medium acted as a diffuser. Three different mesh-sized structures were analyzed by optical imaging, light transmission and scattering in the presence of supercut, diesel and stroke oil types within the meshes. The meshes were utilized as a medium for different types of oils and the optical diffusion and transmission were studied in the visible spectrum. Angle-resolved measurements were carried out to characterize light scattering behavior from the mesh structures. Different types of oils were identified based on the optical behavior of the lattice structure. The fabricated mesh structures can be utilized as a low-cost measurement device in oil sensing.

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Aydin Sabouri

Photonic crystal fiber based plasmonic sensors

Printable Nanophotonic Devices via Holographic Laser Ablation

Holographic direct pulsed laser writing of two-dimensional nanostructures

Femtosecond laser directed fabrication of optical diffusers

Three-Dimensional Microstructured Lattices for Oil Sensing

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