Operando monitoring transition dynamics of responsive polymer using optofluidic microcavities

Abstract: Optical microcavities have become an attractive platform for precision measurement with merits of ultrahigh sensitivity, miniature footprint and fast response. Despite the achievements of ultrasensitive detection, optical microcavities still face significant challenges in the measurement of biochemical and physical processes with complex dynamics, especially when multiple effects are present. Here we demonstrate operando monitoring of the transition dynamics of a phase-change material via a self-referencing op… Show more

“…T PT = t PT × t * PT (6) in which η 0 and η 1 represent the impedance of the incident medium and the exit medium, respectively. For the structure designed in this paper, the incident medium and the exit medium are both air.…”

“…Compared with traditional sensors, optical sensors can accurately detect signal changes in a variety of complex environments due to the tiny size, high accuracy and strong anti-interference ability, which can be extensively used in many fields such as medicine, national defense, industrial as well as agricultural production [1][2][3][4][5][6][7]. In recent years, researchers have introduced sensitive medium layers into the structure or placed the detection sample as a medium layer in the photonic crystal structure.…”

Simulation Research on Blood Detection Sensing with Parity-Time Symmetry Structure

“…T PT = t PT × t * PT (6) in which η 0 and η 1 represent the impedance of the incident medium and the exit medium, respectively. For the structure designed in this paper, the incident medium and the exit medium are both air.…”

“…Compared with traditional sensors, optical sensors can accurately detect signal changes in a variety of complex environments due to the tiny size, high accuracy and strong anti-interference ability, which can be extensively used in many fields such as medicine, national defense, industrial as well as agricultural production [1][2][3][4][5][6][7]. In recent years, researchers have introduced sensitive medium layers into the structure or placed the detection sample as a medium layer in the photonic crystal structure.…”

Simulation Research on Blood Detection Sensing with Parity-Time Symmetry Structure

“…[15][16][17] Due to the strong light-matter interactions and light confinements provided by an optical cavity, subtle physical changes could be amplified during repeated interactions within the cavity. [18][19][20][21] Active resonators, particularly optofluidic lasers, have garnered widespread attention due to their distinctively prominent emission signal as compared to conventional light characteristics. [22][23][24][25] Subtle structural changes, including molecular structure, polarization, and cellular structures, could therefore be significantly amplified and observed, and distinguished through output laser emission.…”

Monitoring osmotic pressure with a hydrogel integrated optofluidic microlaser

“…[16] Moreover, the use of multiple modes may realize simultaneous measurement of multiple parameters, such as a pair of cavity modes are used to decouple the refractive index and temperature information of the analyte during the phase-transition process. [17] Starting from solid silica microcavities, [18] organic materials microcavities, [19][20][21] all-liquid microcavities, [22,23] and hollow liquid core microcavities [24,25] have been developed for temperature sensing. The advantages of organic material and liquid microcavities are their large thermal expansion coefficient and thermo-optical coefficient, so they have higher temperature sensitivity than silica microcavities.…”

Ultrahigh‐Resolution Optical Fiber Thermometer Based on Microcavity Opto‐Mechanical Oscillation