A study published in the journal Cells proposes a lacunarity-based quantitative analysis method for assessing the nanoscale cellular structure and homogeneity of target molecules in single-molecule localization microscopy.
A pre-proof study in the Journal of Aerosol Science employs a series of spark discharges in a flowing gas environment to repeatedly manufacture silver nanoparticles using the hydrogen-assisted spark generation technique. Various compositions of H2-Ar mixtures were used as the carrier gas to comprehensively study how the hydrogen concentration affects the signal amplification achieved with silver nanoparticles in Raman spectroscopic investigations.
A metasurface device that can show three different types of images based on the illumination source has been created by researchers.
McCrone Microscopes & Accessories will present a range of Linkam’s leading temperature and environment-controlled stages at booth #1134, AMS 2022.
Researchers have presented a model that estimates the number of nanoparticles in water. Ultraviolet-visible spectroscopy (UV-vis) and transmission electron microscopy (TEM) were used to create and analyze citrate-capped gold nanoparticles.
Researchers have used scanning electron microscopy (SEM), an impedance analyzer of 1 MHz - 3 GHz, energy dispersive spectroscopy (EDS), and X-ray diffraction (XRD) to investigate the microstructure and optical and dielectric properties of synthesized Cr-doped MoO3 samples.
A ZnO-coated optical fiber sensor for detecting a volatile organic compound biomarker for diabetes has been recently demonstrated in a study published in Sensors. The researchers used a coreless silica fiber (CSF) coupled with single-mode fiber (SMF) at both ends to synthesize the SMF-CSF-SMF structure.
In an article published in Energies, researchers presented a novel approach to improve the optoelectrical properties of silicon (Si), including optical conductivity and bandgap, by applying the direct ultrafast pulsed nanostructure formation (DUPNF) technique.
In an article published in The Journal of Physical Chemistry C, the researchers presented a novel method to pattern gold nanorods' (GNRs) assemblies on substrates and studied the near-field coupling induced by the aggregation of the nanoparticles.
A recent study published in Analytical Chemistry proposes a strategy for optical detection of multiple bacterial species based on the optical properties of nanohybrid structures of polymer-coated metal nanoparticles.