Coating materials and coated personal protective clothing items incorporating the coating material are described. The coating material includes a polymeric component; a metal oxide component; and a catalytic component. The catalytic component includes a metal oxide or a mixed metal oxide which is an effective catalyst for an oxidation reaction. The coated personal protective clothing item includes a personal protective clothing substrate with a coating including the coating material.

The present invention provides a sustainable stain resistant composition 102 that includes (a) about 3% to 8% of at least one silicon nano particle surface functionalized with (Pentafluorophenyl)triethoxysilane 104, and (b) about 3% to 8% of at least one hydrophobic agent 106 selected from a group comprising polymer of (a) methacrylic esters of aliphatic C1 to C18 alcohols, or (b) vinyl acetate, or (c) acrylonitrile. The stain resistant composition further includes (a) at least one softening agent 110, (b) an extending agent 108, (c) at least one of (i) a wetting agent or (ii) a re-wetting agent 112, and (d) a microencapsulated odour neutralizing agent 114. The present invention also relates to a process for producing stain resistant textile 118 using the sustainable stain resistant composition 102.

The present invention provides a sustainable stain resistant composition 102 that includes (a) about 3% to 8% of at least one silicon nano particle surface functionalized with (Pentafluorophenyl)triethoxysilane 104, and (b) about 3% to 8% of at least one hydrophobic agent 106 selected from a group comprising polymer of (a) methacrylic esters of aliphatic C1 to C18 alcohols, or (b) vinyl acetate, or (c) acrylonitrile. The stain resistant composition further includes (a) at least one softening agent 110, (b) an extending agent 108, (c) at least one of (i) a wetting agent or (ii) a re-wetting agent 112, and (d) a microencapsulated odour neutralizing agent 114. The present invention also relates to a process for producing stain resistant textile 118 using the sustainable stain resistant composition 102.

A chemical formulation for imparting a textile with durable wicking, softening and antistatic properties comprising an amphoteric or betaine surfactant, and an alkoxysilane. A method of treating the textile with the chemical formulation as well as the treated textile and the articles made therefrom are provided.

A coated staple fiber (1) suitable for obtaining protective and floating padding, having a core consisting of at least one natural and/or man-made organic staple fiber (F) and comprising: I) a base tackifier layer (A) which covers the natural and/or man-made organic staple fiber (F) and which comprises a hydrocarbon resin II) an intermediate heat insulating and fire retardant layer (B) which covers the base layer (A) and which comprises aerogel microparticles evenly but not continuously distributed, III) a top hydrophobic layer (C) which covers the intermediate layer (B) and which comprises organosilanes, wherein the base layer (A) binds the intermediate layer (B) to the natural and/or man-made organic staple fiber (F) and the intermediate layer (B) is included between the base layer (A) and the top layer (C).

A coated staple fiber (1) suitable for obtaining protective and floating padding, having a core consisting of at least one natural and/or man-made organic staple fiber (F) and comprising: I) a base tackifier layer (A) which covers the natural and/or man-made organic staple fiber (F) and which comprises a hydrocarbon resin II) an intermediate heat insulating and fire retardant layer (B) which covers the base layer (A) and which comprises aerogel microparticles evenly but not continuously distributed, III) a top hydrophobic layer (C) which covers the intermediate layer (B) and which comprises organosilanes, wherein the base layer (A) binds the intermediate layer (B) to the natural and/or man-made organic staple fiber (F) and the intermediate layer (B) is included between the base layer (A) and the top layer (C).

A process of fabricating the composition coating may include selecting a textile material substrate, utilizing a sol-gel comprising a silane or silane derivative and metal oxide precursor to coat the substrate, and optionally coating the substrate with a hydrophobic chemical agent and/or other chemical agents to create a surface with nanoscopic or microscopic features. The process may utilize an all solution process or controlled environment for fabricating a composition coating that prevent wetting or staining of a substrate. The composition coatings for treating textile materials improve soil-resistance and stain-resistance of the textile materials. The composition coatings and their use for treating textile materials can also impart water repellency, oil repellency, ease of cleaning stains and removing particulates. In addition, the composite solution may impart additional properties such as physical strength to the textile whilst retaining the original appearance.

A process of fabricating the composition coating may include selecting a textile material substrate, utilizing a sol-gel comprising a silane or silane derivative and metal oxide precursor to coat the substrate, and optionally coating the substrate with a hydrophobic chemical agent and/or other chemical agents to create a surface with nanoscopic or microscopic features. The process may utilize an all solution process or controlled environment for fabricating a composition coating that prevent wetting or staining of a substrate. The composition coatings for treating textile materials improve soil-resistance and stain-resistance of the textile materials. The composition coatings and their use for treating textile materials can also impart water repellency, oil repellency, ease of cleaning stains and removing particulates. In addition, the composite solution may impart additional properties such as physical strength to the textile whilst retaining the original appearance.

A coated staple fiber suitable for obtaining protective and floating padding, having a core consisting of at least one natural and/or man-made organic staple fiber and comprising: I) a base tackifier layer which covers the natural and/or man-made organic staple fiber and which comprises a hydrocarbon resin or similar tackifier, II) an intermediate heat insulating and fire retardant layer which covers the base layer and which comprises aerogel microparticles evenly but not continuously distributed, III) a top hydrophobic layer which covers the intermediate layer and which comprises organosilanes, wherein the base layer binds the intermediate layer to the natural and/or man-made organic staple fiber and the intermediate layer is included between the base layer and the top layer.

A coated staple fiber suitable for obtaining protective and floating padding, having a core consisting of at least one natural and/or man-made organic staple fiber and comprising: I) a base tackifier layer which covers the natural and/or man-made organic staple fiber and which comprises a hydrocarbon resin or similar tackifier, II) an intermediate heat insulating and fire retardant layer which covers the base layer and which comprises aerogel microparticles evenly but not continuously distributed, III) a top hydrophobic layer which covers the intermediate layer and which comprises organosilanes, wherein the base layer binds the intermediate layer to the natural and/or man-made organic staple fiber and the intermediate layer is included between the base layer and the top layer.