Polarization holographic microscope slide for birefringence imaging of anisotropic samples in microfluidics.
Birefringence is an important optical properties of anisotropic materials arising from the anisotropy of tissue microstructure. birefringence parameters have been found to be important to understand the architecture of many optical anisotropic material and polarization imaging has been applied in many fields of research in biology and medicine. Here, we propose a scheme for the miniaturize dual-channel polarization interferometer optical holograms to create holographic polarization microscope slide (P-HMS) suitable for integrating with (LoC) systems microfluidic lab-on-a-chip.
Based on the P-HMS combined with simple reconstruction algorithms described in the paper, we can not only simultaneously realize holographic imaging of two orthogonal polarization components of dynamic samples in microfluidic channels but also a quantitative measurement of 2D information birefringence, both including birefringence the phase retardation and orientation optik- axis. Chip interferometer allows for off-axis polarization dual-channel digital holographic recording uses only a single light beam without any beam splitter or mirror. General quasi lane configuration and self-aligned design also makes it tolerant to vibration and misalignment. This work on the P-HMS can play a positive role in promoting the application of imaging birefringence in LOC microfluidic technology.
holographic microscope appeared as a suitable tool for in situ diagnostics and environmental monitoring, providing high-throughput, label-free, quantitative imaging capabilities through a small and compact device. In-line holographic microscope can be realized with contained costs, trade of complexity in decision phase and is limited to rare samples.
Here we present a 3D printed, cost effective and portable field off-axis holographic microscope slide hologram based microfluidic concepts. Our scheme eliminates the complexity of the reconstruction process, such as non-recurring and retrieval phase can be obtained by hologram demodulation. Our configuration ensures introduce flexibility in the definition of the optical scheme, exploited to realize a modular device with different features.
Polarization holographic microscope slide for birefringence imaging of anisotropic samples in microfluidics.
A micro cell culture method utilizes modified microscope slides for use in fluorescent antibody and enzyme immunoassay.
A technique for the culture of a small number of mammalian cells on a microscope slide modified explained. The modified microscope slide is Bellco Glass, Inc., toxoplasmosis slides and cell culture used early part cow embryo lung cells and continuous cell lines origin pigs and dogs. Shear cell culture either infected or infected with a virus selected or obligate intracellular protozoanEncephalitozoon caniculi for use in the direct fluorescent antibody test and the indirect or peroxidase antiperoxidase immunosorbant test.
100-place microscope slide box (for 75 x 50 mm slides)
Description: Please reffer to the technical data sheet for more detail information for this item. Our dedicated team would be happy to assist you via live chat, email or phone.
Description: Please reffer to the technical data sheet for more detail information for this item. Our dedicated team would be happy to assist you via live chat, email or phone.
Description: Please reffer to the technical data sheet for more detail information for this item. Our dedicated team would be happy to assist you via live chat, email or phone.
Description: X-press Tag is an N-terminal leader peptide; this N-terminal peptide contains a polyhistidine sequence, the Xpress epitope (part of bacteriophage T7 gene 10?protein) and an enterokinase cleavage site. Anti-Xpress antibodies recognize the Xpress epitope sequence found in this leader peptide.
Positive control tissue section for each antibody; Based on availability INQUIRE
We discuss the trade-offs and practical design rules to follow to develop a microscope DH by the proposed solution. Using our prototype, we picture flowing marine microalgae, beads of polystyrene, E.coli and microplastics. We detail the effects on the performance and cost of each of the parameters, design and hardware selection, guiding the reader toward the realization of optimized device that can be used out of the lab by non-expert users for point of care testing.