High barrier compostable products using protein fillers in bioplastics and methods of making those

What is claimed is: 1 . A gas barrier substrate, wherein the gas barrier substrate comprises a biodegradable composite, the biodegradable composite comprising a polymeric matrix and a sustainable filler comprising protein. 2 . The gas barrier substrate of claim 1 , wherein the biodegradable composite has an oxygen transmission rate of 55 cc/m2-day or less, or an oxygen transmission rate of 5.96 cc/pkg·day or less, or an oxygen transmission rate of 0.031 cc/pkg·day or less, or an oxygen transmission rate of 0.013 cc/pkg·day or less, or an oxygen transmission rate of 0.009 cc/pkg·day or less, or an oxygen transmission rate of 0.003 cc/pkg·day or less, wherein the oxygen transmission rate is calculated at normalized thickness of the biodegradable composite of 25.4 micrometer (1 mil) at 0% relative humidity, 23.7° C. 3 . The gas barrier substrate of claim 1 , wherein the biodegradable composite has a water permeation rate of 0.033 g/pkg·day, or less or has a water permeation rate of 0.02 g/pkg·day or less, or a water permeation rate of 0.016 g/pkg·day or less, wherein the water permeation rate is calculated at normalized thickness of the biodegradable composite of 25.4 micrometer (1 mil) at 100% relative humidity, 37.8° C. 4 . The gas barrier substrate of claim 1 , wherein the polymeric matrix comprises one or more biodegradable polymers. 5 . The gas barrier substrate of claim 4 , wherein the polymer matrix comprises one or more of polylactide (PLA), Bio-based poly(butylene succinate) (BioPBS), poly(butylene succinate adipate) (PBSA), poly(butylene adipate-co-terephthalate) (PBAT), polycaprolactone (PCL), polyhydroxyalkanoates (PHAs) including poly(3-hydroxy) butyrate (PHB) and poly(3-hydroxybutyrate-hydroxyvalerate) (PHBV). 6 . The gas barrier substrate of claim 4 , wherein the polymeric matrix comprises a binary blend of PHBV/PBAT, BioPBS/PLA, or a ternary blend of PHBV/PBAT/PBSA. 7 . The gas barrier substrate of claim 1 , wherein the polymeric matrix comprises PHBV, BioPBS, PBSA, PBAT, PCL or PLA as a major component of the polymeric matrix. 8 . The gas barrier substrate of claim 1 , wherein the biodegradable composite is free of ethylene vinyl alcohol (EVOH) or polyvinyl alcohol (PVOH). 9 . The gas barrier substrate of claim 1 , wherein the sustainable filler is a hybrid filler comprising (a) milk protein and/or soy protein and (b) a second filler selected from one or more of: starch; inorganic mineral fillers from talc, clay and/or wollastonite. 10 . The gas barrier substrate of claim 1 , wherein the biodegradable composite comprises up to 25 wt % of sustainable fillers. 11 . The gas barrier substrate of claim 1 , wherein the oxygen transmission rate of the gas barrier substrate is similar or lower than the oxygen transmission rate of each one of PET, Nylon or EVOH. 12 . The gas barrier substrate of claim 1 , wherein the biodegradable composite further comprises a compatibilizer, the compatibilizer including peroxide or maleic anhydride-grafted biopolymers. 13 . The gas barrier substrate of claim 1 , wherein the gas barrier substrate is industrial compostable or home compostable. 14 . The gas barrier substrate of claim 1 , wherein the gas barrier substrate is a single layer gas barrier. 15 . The gas barrier substrate of claim 1 , wherein the gas barrier substrate is in the form of a pellet, a granule, an extruded solid, an injection molding solid. 16 . An article of manufacture comprising the gas barrier substrate of claim 1 . 17 . The article of manufacture of claim 16 , wherein the article of manufacture is a film, sheet, membrane, injection molded or thermoformed shapes. 18 . The article of manufacture of claim 16 , wherein the article of manufacture is a packaging in shape of a coffee pod. 19 . A method of limiting gas permeation through a membrane, the method comprising at least partially or entirely manufacturing the membrane with the gas barrier substrate of claim 1 . 20 . The method of claim 19 , wherein the membrane is in the form of a container.