Highly scattering porous material based on fibrillar, elongated, or disk-like particles

The invention claimed is: 1. A method for preparing a porous fibril-based material, characterized by providing fibrillar or elongated colloidal cellulose particles in solution; separating the colloidal cellulose particles into fractions including a fraction having colloidal cellulose particles having diameters in the range of 150 to 500 nm; dispersing the fraction of colloidal cellulose particles having diameters from 150 to 500 nm in water to give an aqueous mixture; filtering the resulting aqueous mixture, and optionally concentrating the colloidal cellulose particles, dispersing the colloidal cellulose particles in a volatile solvent; and carrying out a drying step, wherein the porous fibril-based material comprises: fibrillar or elongated colloidal cellulose particles, wherein the fibrillar or elongated colloidal cellulose particles consist of fibrillar or elongated colloidal cellulose particles having diameters from 150 nm to 500 nm, wherein the fibrillar or elongated colloidal cellulose particles form a distribution of particles having diameters from 150 nm to 500 nm with an average diameter of about 250 nm, according to the lognormal distribution, and air or another ambient gas in the pores of the material between the particles, the material having a porosity of 20% or more, a density of between 400 and 950 kg/m 3 and 20% to 80% by volume of solids, the material having a total reflectance of more than 70% for a material thickness of 10 μm, and the material having a total transmittance of less than 50% for a material of 10 μm, as measured using a wavelength of 500 nm, wherein the material is in the form of a membrane having a thickness of 0.1 to 100 μm. 2. The method of claim 1 , wherein the aqueous mixture is filtered followed directly by dispersing the colloidal cellulose particles in a volatile solvent. 3. The method of claim 1 , wherein the separation of fractions is achieved using centrifugation. 4. The method of claim 1 , wherein the fraction of colloidal cellulose particles dispersed in a volatile solvent to a concentration of 5 wt. % or less. 5. The method of claim 1 , wherein the colloidal cellulose particles are obtained from a cellulose pulping process. 6. The method of claim 1 , wherein the aqueous mixture is concentrated to a particle content of 5 wt. % or more. 7. The method of claim 1 , wherein colorants or aromatics are added to the fractions of colloidal cellulose particles. 8. A porous fibril-based material comprising: fibrillar or elongated colloidal cellulose particles, wherein the fibrillar or elongated colloidal cellulose particles consist of fibrillar or elongated colloidal cellulose particles having diameters from 150 nm to 500 nm, wherein the fibrillar or elongated colloidal cellulose particles form a distribution of particles having diameters from 150 nm to 500 nm with an average diameter of about 250 nm, according to the lognormal distribution; and air or another ambient gas in the pores of the material between the particles, the material having a porosity of 20% or more, a density of between 400 and 950 kg/m 3 and 20% to 80% by volume of solids, the material having a total reflectance of more than 70% for a material thickness of 10 μm, and the material having a total transmittance of less than 50% for a material of 10 μm, as measured using a wavelength of 500 nm, wherein the material is in the form of a membrane having a thickness of 0.1 to 100 μm. 9. The material of claim 8 , having a total reflectance of more than 40% for a material thickness of 2.5 μm. 10. A pigment, a colour enhancer or paint, a white enhancer or paint, a protective film, a cosmetic, a medicament, or a light-harvesting component in solar cells, comprising the material of claim 8 . 11. The material of claim 8 , which contains a maximum of 70% by volume of solids. 12. The material of claim 8 which contains approximately 50% by volume of solids. 13. The material of claim 8 , wherein the membrane has a thickness of 3 to 50 μm. 14. The material of claim 8 , having a total transmittance of less than 30% for a material thickness of 10 μm, as measured using a wavelength of 500 nm. 15. The material of claim 8 , having a total transmittance of less than 10% for a material thickness of 10 μm, as measured using a wavelength of 500 nm. 16. The material of claim 8 , having a total reflectance of more than 90% for a material thickness of 10 μm. 17. The material of claim 8 , wherein the material has a specific surface area within the range of 100 to 140 m 2 /g.