According to some embodiments, a structural colorant is provided including a semi-continuous structure formed by multiple layers of a first polymer. In some embodiments, air gaps are interspersed between the layers of the first polymer. In some embodiments, a second polymer is interspersed between the layers of the first polymer. In some embodiments, the semi-continuous structure has a center and at least two planes of symmetry through its center.

A method for making a carbon nanotube composite structure includes providing a polymer substrate having a first surface and a second surface opposite to the first surface. A first carbon nanotube layer including a plurality of carbon nanotubes is placed on the first surface to form a preformed structure, wherein the carbon nanotube layer and the polymer substrate are stacked with each other. The preformed structure is scanned with a laser according to a predetermined pattern. The treated preformed structure includes a first part and a second part. The first part is scanned by the laser, and the second part is not scanned by the laser. The first part includes a plurality of first carbon nanotubes, and the second part includes a plurality of second carbon nanotubes. The plurality of second carbon nanotubes is removed.

The present disclosure generally relates to retroreflective elements having a mono-layer forming compound, articles (including, for example, retroreflective roadway paints) including these retroreflective elements, and methods of making and using these retroreflective elements. Some embodiments relate to a retroreflective element, comprising: a core; a plurality of glass beads adjacent to the core; and a monolayer-forming organic compound.

Water-based solvent-free and IR reflecting surface treatment composition comprising/consisting of the following compounds: a base comprising a. 30 to 60% by weight of an acrylic resin; b. 1 to 10% by weight of an alkyd resin; c. 0.1 to 2% by weight of a polyolefin; d. 0.1 to 1% by weight of an ammonium salt; e. Less than 0.1% by weight of a preservative; f. Water such that base reaches 100% by weight:
and a paste comprising i. metal oxides having a mean particle size between 0.05 and 5 μm ii. a polymeric binder

A radiative cooling composition comprises a first component having >55% reflectance in a wavelength range of 0.2 to 2.5 μm and a second component having >0.85 peak thermal emissivity for at least one wavelength in a range of 4-35 μm. A third pigmented component of the composition is configured to emit at least a fraction of absorbed energy, and in certain embodiments the pigmented component comprises at least one phosphor.

The present disclosure relates to an industrial marking tape. In one or more embodiments, the industrial tape can comprise a plastic substrate layer comprising a polycarbonate material, a polyethylene material, or a combination thereof. Additionally, the industrial tape can comprise a paint layer positioned adjacent to the plastic substrate layer. Further, the industrial tape can comprise an adhesive layer positioned adjacent to the plastic substrate layer or the paint layer.

Silicone compositions and methods of using the compositions are provided. The silicone coatings can exhibit improved dirt pick-up resistance and cleanability. The silicone compositions include a polysiloxane, at least one surfactant, and optionally one or more of a pigment, a filler, a crosslinker, an adhesion promoter, a catalyst, additives or solvents.

A nano-composite material for coating glass, as well as methods of its manufacture and use, are disclosed. The composite may be composed of a first metal oxide bridging a silicone oil moiety and an anionic surfactant moiety, and a second metal oxide bound to the silicone oil moiety. The composite may be fabricated by heating a first metal oxide and a second metal oxide with silicone oil, followed by the addition of a mixture of the surfactant and an oxidizing solution. The composite may be mixed with a suitable solvent and applied to a hot glass sheet. A glass coated with such a composite may transmit visible light, absorb some ultraviolet light, and reflect some near infrared light. The optical characteristics of the coated glass may be used to reduce heat in a glass-enclosed area by reducing the amount of infrared and ultraviolet light transmitted through the glass.

The invention pertains to a method for protecting wood comprising coating wood with a coating composition, wherein the coating composition is an aqueous coating composition comprising at least one anionically stabilized latex polymer, at least one polyfunctional amine, and at least one volatile base, and having a pH in the range of from 9.5 to 11, wherein the wood has a moisture content of at least 15 wt. %.The invention further pertains to the use of such coating composition in the protection of wood with a moisture content of at least 15 wt. %.

The present invention provides a red paint for ceramic decoration, including a glass matrix, and a red colorant and a protective material that are intermingled in the glass matrix. The red colorant contains gold nanoparticles and silver nanoparticles. The protective material contains silica nanoparticles.