tin dioxide

Known in the production process as dross, the tin dioxide adheres to the glass.

A similar reaction occurs when tin dioxide is dissolved in base:

Oxygen increases resistance of the tin dioxide while carbon monoxide reduces resistance.

Kistler's later work involved aerogels based on alumina, chromia and tin dioxide.

Some low cost CO alarms use simple tin dioxide sensors without temperature cycling or chemical filters.

A final high polish is added using putty powder (finely crushed tin dioxide) applied with a moist piece of felt.

Tin, however, oxidises in a natural atmosphere to form tin dioxide (SnO).

This colourless salt forms upon dissolving tin or tin dioxide in sodium hydroxide.

The manufacturing process begins with the application of a microscopic Tin dioxide coating to a pane of float glass.

It contains tin dioxide.

Thin wires of the semiconductor tin dioxide on an insulating ceramic base provide a sensor monitored by an integrated circuit.

Or finally by adding concentrated nitric acid over tin; hydrated tin dioxide is produced as byproduct.

The tin dioxide coatings are typically doped with other materials, like fluorine or antimony to enhance certain properties.

Dr Coles's sensor is made of tin dioxide a cheap and readily available substance previously rejected by engineers for more expensive materials.

Tin is obtained chiefly from the mineral cassiterite, where it occurs as tin dioxide, SnO.

During calcination all the Sb ions in an antimony-containing tin dioxide catalyst transform into the +5 oxidation state.

The tin dioxide coatings formed are transparent to visible light, reflect infrared light, and are highly conductive.

Tin, however, is highly reactive with oxygen and Redox in a natural atmosphere to form Tin dioxide (SnO2).

Tin(IV) chloride, also known as stannic chloride or tin dioxide, is a chemical compound.

The first involves deposition of fluorinated tin oxide (SnO2:F see Tin dioxide uses) at high temperatures.

Because of the higher specific gravity of tin dioxide, about 80% of mined tin is from secondary deposits found downstream from the primary lodes.

On top is a transparent anode made of fluoride-doped tin dioxide (SnO:F) deposited on the back of a (typically glass) plate.

Tin dioxide is the most common material used in semiconductor sensors, and the electrical resistance in the sensor is decreased when it comes in contact with the monitored gas.

For glaze use only one tin compound, tin (IV) oxide Tin dioxide (SnO), and also called stannic acid, is commercially exploited.