Patterned light-blocking elements are prepared using a method having operations A) through F). Such method includes providing an ii) embossed and densified foamed opacifying layer on the back side of a i) fabric and a iii) non-foamed function composition on the ii) embossed and densified foamed opacifying layer. Embossing can be carried out using a specific i) fabric having a prefabricated visible relief pattern on its face side. During embossing and densification, this prefabricated visible relief pattern self-embosses the ii) embossed and densified foamed opacifying layer, thus providing a visible relief pattern in that layer that can be viewed from the face side of the patterned light-blocking element when appropriately backlit as a transmissive display in a darkened environment. Such elements can be used as window treatments as well as decorative fabrics in various environments.

The present invention provides a process for the production of a fabric having a unique appearance and the fabric so obtained. Also provided is the clothing articles, i.e. garments, including the fabric. More particularly, the present invention relates to a process for producing a woven fabric having a unique, e.g. used (i.e. worn-out) or multi-shaded appearance and the process includes a step of providing a woven fabric with a layer of bacterial biopolymer, dyeing at least part of the fabric together with the biopolymer layer, and then removing at least part of the bacterial biopolymer layer from the fabric.

The present invention provides a process for the production of a fabric having a unique appearance and the fabric so obtained. Also provided is the clothing articles, i.e. garments, including the fabric. More particularly, the present invention relates to a process for producing a woven fabric having a unique, e.g. used (i.e. worn-out) or multi-shaded appearance and the process includes a step of providing a woven fabric with a layer of bacterial biopolymer, dyeing at least part of the fabric together with the biopolymer layer, and then removing at least part of the bacterial biopolymer layer from the fabric.

Water vapor transport membranes for ERV and other water vapor transport applications are provided. The membranes include a substrate and an air impermeable selective layer coated on the substrate, the selective layer including a cellulose derivative and a sulfonated polyaryletherketone. In some embodiments the sulfonated polyaryletherketone is in a cation form and/or the selective layer includes sPEEK and CA in an sPEEK:CA (wt.:wt.) ratio in the range of about 7:3 to 2:3. Methods for making such membranes are provided. The methods include applying a coating solution/dispersion to a substrate and allowing the coating solution/dispersion to dry to form an air impermeable selective layer on the substrate, the coating solution/dispersion including a cellulose derivative and a sulfonated polyarylether ketone. In some embodiments the sulfonated polyaryletherketone is in a cation form and/or the coating solution/dispersion includes sPEEK and CA in an sPEEK:CA (wt.:wt.) ratio in the range of about 7:3 to 2:3.

Foamable aqueous compositions can be foamed and applied to porous substrates to make light-blocking dry opacifying elements. Such compositions have 0.05-15 weight % of porous particles; at least 20 weight % of a binder; at least 0.0001 weight % of additives (including a surfactant); water; and at least 0.001 weight % of an opacifying colorant. Each porous particle includes a continuous polymeric phase and discrete pores; a mode particle size of 2-50 m; and a porosity of 20-70 volume %. The continuous polymeric phase T.sub.g is >80 C. and has a polymer viscosity of 80-500 centipoises at an ethyl acetate shear rate of 100 sec.sup.1 at a concentration of 20 weight % at 25 C. The dry opacifying element light blocking value is at least 4 and has a luminous reflectance >40% as measured by the color space Y tristimulus value. The foamed aqueous composition has a foam density of 0.1-0.5 g/cm.sup.3.

An aqueous finishing composition includes at least one polyglycerol, at least one organic polycarboxylic acid containing at least three carboxyl groups, at least one esterification catalyst, at least one plasticizer, and at least one thickener selected from a group consisting of cellulose derivatives, succinoglycans and xanthans.

The invention herein provides biofabricated leather materials, solutions comprising collagen that can be used to create biofabricated leather materials, articles comprising biofabricated leather materials applied to portions of a substrate in a pattern or a design such a lace like pattern, and/or that serve to join end portions of one or more substrates, e.g., to replace stitching and/or adhesives, and methods thereof.

The invention herein provides biofabricated leather materials, solutions comprising collagen that can be used to create biofabricated leather materials, articles comprising biofabricated leather materials applied to portions of a substrate in a pattern or a design such a lace like pattern, and/or that serve to join end portions of one or more substrates, e.g., to replace stitching and/or adhesives, and methods thereof.

Foamable aqueous compositions can be foamed and applied to porous substrates to make light-blocking dry opacifying elements. Such compositions have 0.05-15 weight % of porous particles; at least 20 weight % of a binder; at least 0.0001 weight % of additives (including a surfactant); water; and at least 0.001 weight % of an opacifying colorant. Each porous particle includes a continuous polymeric phase and discrete pores; a mode particle size of 2-50 m; and a porosity of 20-70 volume %. The continuous polymeric phase T.sub.g is >80 C. and has a polymer viscosity of 80-500 centipoises at an ethyl acetate shear rate of 100 sec.sup.1 at a concentration of 20 weight % at 25 C. The dry opacifying element light blocking value is at least 4 and has a luminous reflectance >40% as measured by the Y tristimulus value. The foamed aqueous composition has a foam density of 0.1-0.5 g/cm.sup.3.

This invention relates to a bio-leather coated fabric (1) which is obtained by decomposing the cellulose layer (2) produced by microorganisms after production and adding the necessary active ingredients to obtain a biopolymer filler (3) and by pressing and laminating the obtained biopolymer filler (3) to a surface such as paper, woven fabric, reflector fabric, polyester, silk fabric in the textile industry with natural adhesives, and production method thereof (100).