A composite material comprising a substrate body having a mesoporous structure defined by a network of interconnected fibers; and a thermochromic material including a hydrogel complex filling the mesoporous network, the hydrogel complex including a first polymer being a thermoresponsive hydrogel; wherein the thermochromic material undergoes an increase or a decrease of transparency in response to an external temperature exceeding or falling below a critical transition temperature of the thermochromic material, thereby changing an overall transparency of the composite material. A method of preparing the composite material of some embodiments of the present invention. Use of the composite material of some of the embodiments of the present invention for forming an article. Also a window unit including the composite material of some of the embodiments of the present invention.

A composite material comprising a substrate body having a mesoporous structure defined by a network of interconnected fibers; and a thermochromic material including a hydrogel complex filling the mesoporous network, the hydrogel complex including a first polymer being a thermoresponsive hydrogel; wherein the thermochromic material undergoes an increase or a decrease of transparency in response to an external temperature exceeding or falling below a critical transition temperature of the thermochromic material, thereby changing an overall transparency of the composite material. A method of preparing the composite material of some embodiments of the present invention. Use of the composite material of some of the embodiments of the present invention for forming an article. Also a window unit including the composite material of some of the embodiments of the present invention.

The present invention relates to a method for continuous acetylation of wood elements. The acetylation is conducted with an acetylation medium at a pressure of at least 1.5 barg in a substantially oxygen free environment. Alternatively, the method according to the invention comprises the steps of: (a) feeding wood elements in a substantially oxygen free environment to a continuous acetylation reactor, and (b) treating the wood elements with an acetylation medium in the continuous acetylation reactor under wood acetylation reaction conditions, at a pressure of at least 1.5 barg. The process according to the present invention allows to acetylate wood elements to a high acetyl content in a very efficient way, without compromising on the quality of the material. The acetylated wood elements can be used in the production of medium density fibreboards with superior qualities such as dimensional stability and durability.

The present invention relates to a method for continuous acetylation of wood elements. The acetylation is conducted with an acetylation medium at a pressure of at least 1.5 barg in a substantially oxygen free environment. Alternatively, the method according to the invention comprises the steps of: (a) feeding wood elements in a substantially oxygen free environment to a continuous acetylation reactor, and (b) treating the wood elements with an acetylation medium in the continuous acetylation reactor under wood acetylation reaction conditions, at a pressure of at least 1.5 barg. The process according to the present invention allows to acetylate wood elements to a high acetyl content in a very efficient way, without compromising on the quality of the material. The acetylated wood elements can be used in the production of medium density fibreboards with superior qualities such as dimensional stability and durability.

The present invention provides a method for the acetylation of wood comprising treating the wood with an acetylation medium under wood acetylation reaction conditions and drying the acetylated wood, wherein the drying comprises at least two steps, wherein the wood is first dried with a first drying medium and then with a second drying medium.

A synergistic aqueous wood preservative composition comprising a copper compound and penflufen. The copper compounds of the compositions of the invention may be soluble, partially solubilized or micronized particles. The penflufen of the compositions of the invention may be solubilized, emulsified or particulate. The wood preservative compositions of the present invention are surprisingly provided as stable dispersions and confer surprising and unexpected resistance to treated wood and wood products.

A synergistic aqueous wood preservative composition comprising a copper compound and penflufen. The copper compounds of the compositions of the invention may be soluble, partially solubilized or micronized particles. The penflufen of the compositions of the invention may be solubilized, emulsified or particulate. The wood preservative compositions of the present invention are surprisingly provided as stable dispersions and confer surprising and unexpected resistance to treated wood and wood products.

A reactor system for the modification of lignocellulosic materials comprises a reaction vessel, a vacuum connection and an inlet and/or outlet connected to a gas flow loop connected to a heat exchanger and at least one fluid circulation device. Particularly, gas flow loop is arranged so as to allow gas circulation over the diameter of the reaction vessel. The gas flow loop preferably includes a gas distribution device, such as a distribution plate.

A reactor system for the modification of lignocellulosic materials comprises a reaction vessel, a vacuum connection and an inlet and/or outlet connected to a gas flow loop connected to a heat exchanger and at least one fluid circulation device. Particularly, gas flow loop is arranged so as to allow gas circulation over the diameter of the reaction vessel. The gas flow loop preferably includes a gas distribution device, such as a distribution plate.

A method of producing a thermally modified and impregnated wooden product is described herein. One or more pieces of wood are thermally modified. The thermally modified wood is formed into a wooden object by hand, tool, machine, a computer numerical controlled machine, or combinations thereof. The wooden object is then impregnated with one or more treatment agents to produce the thermally modified and impregnated wooden product. The wooden object is impregnated by applying pressure or heat while the object is in the presence of the one or more treatment agents. Minimal, if any, deformation of the thermally modified wooden object occurs during impregnation.