Tailored hydrothermal platforms for fluorescent Q-dots with theranostic application.

This study explores the fluorescence properties of the hydrothermal reaction of citric acid and urea under different conditions, as they have attracted considerable attention in recent years. However, so far, the detailed formation process and the precise chemical structure of the resulting fluorescent products remain inadequately understood. The results reveal that under mild conditions, fluorescence is mainly due to organic molecules, identified as citrazinic acid through acid treatment with spectroscopic techniques.

Encapsulation of thyme essential oil in dendritic mesoporous silica nanoparticles: Enhanced antimycotic properties and ROS-mediated inhibition mechanism.

Dendritic mesoporous silica nanoparticles (DMSNs) have emerged as promising nanocarriers due to their unique three-dimensional structure and tunable pore characteristics. This study investigates the potential of DMSNs to deliver thyme essential oil (TEO) for enhanced antifungal activity against Fusarium oxysporum (F. oxysporum), a major plant pathogen.

Fabrication and Characterization of an Optimized Low-Loss Two-Mode Fiber for Optoacoustic Sensing.

An optimized multi-step index (MSI) 2-LP-mode fiber is proposed and fabricated with low propagation loss of 0.179 dB/km, low intermodal crosstalk and excellent bend resistance. We experimentally clarified the characteristics of backward Brillouin scattering (BBS) and forward Brillouin scattering (FBS) induced by radial acoustic modes () in the fabricated MSI 2-LP-mode fiber, respectively.

Distributed strain and temperature fast measurement in Brillouin optical time-domain reflectometry based on double-sideband modulation.

A novel distributed strain and temperature fast measurement method in Brillouin optical time-domain reflectometry (BOTDR) system based on double-sideband (DSB) modulation is proposed. The single-wavelength probe light is modulated into dual-wavelength probe light with a fixed phase difference by using carrier suppressed DSB modulation. The interaction between the Brillouin scattering signals corresponding to dual-wavelength probe light forms a Brillouin beat spectrum (BBS).

Third-order optical nonlinearity measurements and optical limiting experiment in Tm: YAG crystal.

In this paper, we investigate the third-order nonlinearities and optical limiting effect of Tm: YAG crystal at a wavelength of 1064 nm. We experimentally measure different energy densities (6.4, 12.

Simultaneous measurement of temperature and acoustic impedance based on forward Brillouin scattering in LEAF.

The detection of the surrounding environment is one of the most fundamental challenges in optical fiber sensors research. In this Letter, we report two new, to the best of our knowledge, phenomena in large effective area fiber (LEAF), which are the linear dependence of the radial acoustic mode induced forward Brillouin scattering (FBS) spectral linewidth on temperature and the linear dependence of the radial acoustic mode induced FBS spectral frequency shift on acoustic impedance. By utilizing these linear relationships, we present a novel temperature and acoustic impedance simultaneous measurement method based on FBS in LEAF.