Provided are a composition for a semiconductor process, which comprises a first component comprising an inorganic acid or an organic acid; and a second component comprising a silicon compound represented by Formula 1 or 2, and a semiconductor process, which comprises selectively cleaning and/or removing an organic substance or an inorganic substance using the composition.

Provided are a composition for a semiconductor process, which comprises a first component comprising an inorganic acid or an organic acid; and a second component comprising a silicon compound represented by Formula 1 or 2, and a semiconductor process, which comprises selectively cleaning and/or removing an organic substance or an inorganic substance using the composition.

The present invention comprises a waterless mixture which includes a biuret and/or urea, silica, and melamine particles coated with a layer of magnetite iron oxide for cleaning furnaces, heaters or boilers. A typical cleaning mixture comprises 30-50 percent silica, 20-50 percent biuret and/or urea, 20-40 percent melamine and 1-5 percent iron oxide. The cleaning can be performed at any time. This may lead to a reduction in fuel consumption, less air pollution, increased throughputs, and avoidance of equipment damage.

The present invention comprises a waterless mixture which includes a biuret and/or urea, silica, and melamine particles coated with a layer of magnetite iron oxide for cleaning furnaces, heaters or boilers. A typical cleaning mixture comprises 30-50 percent silica, 20-50 percent biuret and/or urea, 20-40 percent melamine and 1-5 percent iron oxide. The cleaning can be performed at any time. This may lead to a reduction in fuel consumption, less air pollution, increased throughputs, and avoidance of equipment damage.

A suctionable gel for eliminating a contaminating species contained in an organic layer on the surface of a material, consisting of a colloidal solution comprising, preferably consisting of: 1 wt % to 25 wt %, preferably 5 wt % to 20 wt % based on the total weight of the gel, of at least one inorganic viscosifying agent; 13 wt % to 99 wt %, preferably 80 wt % to 95 wt % based on the total weight of the gel, of an organic solvent selected among the terpenes and the mixtures thereof; optionally, 0.01 wt % to 10 wt %, based on the total weight of the gel, of at least one dye and/or pigment; optionally 0.1 wt % to 2 wt %, based on the total weight of the gel, of at least one surfactant. The disclosure further relates to a decontamination method using the gel.

A semiconductor treatment composition includes particles having a particle size of 0.1 to 0.3 micrometers in a number of 310.sup.1 to 1.510.sup.3 per mL.

A semiconductor treatment composition includes particles having a particle size of 0.1 to 0.3 micrometers in a number of 310.sup.1 to 1.510.sup.3 per mL.

A cleaning sachet for removing carbon deposit and rust on a gun element, and a cleaning method thereof, uses cleaning powder that includes aluminum oxide making up 75.000% to 99.989% by weight of the cleaning powder, zinc peroxide making up 0.010% to 9.000% by weight of the cleaning powder, and nano zinc oxide making up 0.001% to 6.000% by weight of the cleaning powder. A user can lay the cleaning sachet on a carbon-deposited and/or rusting area of the gun element before or after moistening the cleaning sachet with a lubricating oil, and then wipe the carbon-deposited and/or rusting area with the cleaning sachet after waiting a period of time. Therefore, the colloidal solution formed by mixing the lubricating oil and the cleaning powder and released out of the cleaning sachet can remove the carbon deposit and/or rust on the surface of the gun element.

A composite laundry additive made of composite particles. The composite particles comprising: a carrier component comprising one or more different inorganic support particles, wherein at least one of the inorganic support particles is a pigment particle; and a silver component comprising a silver metal or silver salt disposed on one or more of the inorganic support particles.

A composite laundry additive made of composite particles. The composite particles comprising: a carrier component comprising one or more different inorganic support particles, wherein at least one of the inorganic support particles is a pigment particle; and a silver component comprising a silver metal or silver salt disposed on one or more of the inorganic support particles.