The Fluorescent Quantitative PCR System is a state-of-the-art tool for detecting and quantifying nucleic acids in your laboratory samples. This PCR system utilizes fluorescent dyes to accurately measure and analyze DNA or RNA sequences in real time, allowing for quick and reliable results. With a compact design and easy-to-use software, this system is perfect for both novice and experienced researchers in a wide range of applications including gene expression analysis, pathogen detection, and more.
ConductScience offers the Fluorescent Quantitative PCR System.
Prepared for a startup working on printed batteries and intended to measure hydrogen generation in various reactions.For starters, we provided two sample tubes with different orifices.
The Halogen Lamp Fluorescence Microscope produces images of stained tissues, animal and microbiological cell colonies, and pathogens irradiated with light. It utilizes specific wavelengths of light, particularly infrared light, to excite fluorophores in specimens infused with the fluorochrome pigment and thereby generates a highly illuminated image with distinguishable boundaries.
The primary purpose of the halogen lamp fluorescence microscope is to irradiate the specimen with a specific wavelength of light, separate the weaker emitted light from the bright excitation light, and only allow the emitted light to reach the detector. When light reaches the detector, the fluorescent structure of the specimen is superimposed against a deep, dark, almost black background.
ConductScience offers the Halogen Lamp Fluorescent Microscope.
The High-Efficiency Electroporation System is a reliable and versatile instrument designed for a wide range of electroporation applications. With precise electrical pulse delivery and an integrated electrofusion function, this system is ideal for transfection, transduction, and transformation of various cell types.
ConductScience offers the High-Efficiency Electroporation System.
The High-Quality Spectrophotometer Cells, are the perfect solution for accurate and precise measurements. Made from optically clear glass, these cells offer excellent chemical resistance and compatibility with most spectrophotometers.With two clear optical windows designed to hold a small volume of samples, our cells allow you to conserve precious samples and reagents. With a range of path lengths and optical properties available, you can choose the perfect cell for your application.
ConductScience offers Spectrophotometer cells. Inquire for more information.
Horizontal electrophoresis tanks are generally used for the analysis and size separation of nucleic acids, i.e., DNA and RNA.
The horizontal electrophoresis system is made of acrylic and comprises two buffer chambers, each containing an electrode. The apparatus consists of a casting tray, horizontal electrophoresis tank (also known as a submarine tank), gel combs, electrodes, and a power supply. Conduct Science offers two different models of horizontal electrophoresis tanks. Each model has different sizes of casting trays and gel combs.
An inverted fluorescent microscope uses fluorescence to study specimens, such as living cells at the bottom of a petri dish or tissue culture. The Inverted Fluorescent Microscope has similar components to those of other microscopes, and the only difference is the arrangement of the parts, which are placed in inverted positions.
The specimen is lit using a halogen lamp as a light source. When light enters the microscope, it strikes a dichroic mirror, reflecting one range of wavelengths while allowing another to pass through. The ultraviolet light is reflected up to the specimen by the dichroic mirror. The UV light causes fluorescence in the specimen’s molecules and the fluorescent-wavelength light generated is collected by the objective lens.
ConductScience offers the Inverted Fluorescent Microscope.
The Jacketed Graduated Cylinder is a high-quality laboratory instrument designed for precise measurement of liquid volumes. Featuring a durable borosilicate glass construction, this graduated cylinder is resistant to chemicals, thermal shock, and mechanical damage. The jacketed design provides extra insulation to protect the contents from temperature fluctuations, ensuring accurate readings even in temperature-sensitive applications.
