Lead Doped Barium Silicate

Lead Doped Barium Silicate is a type of silicate that contains barium and lead as dopants. It is commonly used in the production of ceramic capacitors and other electronic components due to its high dielectric constant and low loss tangent, which enhance the performance of these components. The material also exhibits good thermal stability and chemical resistance, making it suitable for use in harsh environments where stability and resistance to chemical degradation are crucial.

Beyond its applications in the electronics industry, Lead Doped Barium Silicate shows promise in the field of photovoltaics as a potential material for solar cells. Its unique properties may contribute to improving the efficiency and performance of solar energy conversion devices.

Product Specifications:

Similar Products:

• Lead Doped Strontium Silicate
• Barium Titanate Ceramic Capacitor
• Lead Zirconate Titanate (PZT) Ceramic
• Barium Zirconate Titanate (BZT) Thin Film
• Lead Doped Potassium Niobate

WARNING: Poisonous

Barium Sulfate

Barium Sulfate (BaSO₄) is a chemically precipitated, high-purity compound widely used as a filler and functional additive in paints, coatings, pigments, plastics, and lead-acid batteries. Renowned for its outstanding chemical purity and narrow particle size distribution, Barium Sulfate offers excellent dispersion properties, high gloss, and low binder demand. Its extremely low chloride content and reduced electrical conductivity (100 µS/cm) make it ideal for demanding industrial applications. With an average particle size of 1.7 µm and an oil index of 13 g/100g, Barium Sulfate ensures optimal performance in various formulations. It is resistant to water, acids, alkalis, organic solvents, light, and industrial waste gases, including sulfur dioxide. Its versatility and exceptional properties make it a preferred choice for manufacturers in paints, coatings, plastics, and batteries.

Key Features

• Chemically precipitated, high-purity Barium Sulfate
• Excellent dispersion, high gloss, and low binder demand
• Extremely low chloride content and reduced electrical conductivity
• Resistant to water, acids, alkalis, and industrial gases
• Applications in paints, coatings, plastics, and batteries

Product Specifications

Rubber Pipette Filler

The Rubber Pipette Filler is a convenient tool used to release air, draw solution, and precisely release solution from a pipette. It is designed to fill both glass and plastic pipettes safely. This tool is perfect for anyone who needs to dispense precise amounts of liquid in their work or experiments.

Key Features:

• Convenient and easy to use
• Allows for precise solution dispensing
• Works with both glass and plastic pipettes

Instructions:

1. Insert the top of the pipette in the bottom of the pipette filler.
2. Release air from the pipette filler by squeezing valve "A" on the top of the pipette filler while simultaneously squeezing the bulb. The amount of air released should be dependent on the size of the pipette being used. More air should be released for larger volume pipettes.
3. Insert the tip of the pipette into the solution to be dispensed.
4. Siphon solution into the pipette to the desired level by squeezing valve "S" on the bottom of the pipette filler. This uses the vacuum created in the bulb to draw solution into the pipette. Avoid drawing solution into the pipette filler.
5. Empty the pipette by squeezing valve "E" on the side tube. This will help to release solution at the desired rate and to the desired level.
6. It is best to fill the pipette past the zero mark on step 4 (valve "S") and then draw the level down to the zero mark on step 6 (valve "E"). Once the pipette is filled to the desired level, the contents can be dispensed using valve "E".

Cautions: Handle with care. Do not use with corrosive or volatile liquids. Keep away from heat and flames.