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. US20160102069A1.Inventors: ADAM; Georgius Abidal and Scott Needham (2016) ANTIOXIDANT HUMIC ACID DERIVATIVES AND METHODS OF PREPARATION AND USE. Disclosed are antioxidative, natural compounds, their salts, chelates and cleavage derivatives that exhibit a superior combination of properties. The compounds can be used for a variety of purposes, including stabilizing foods, cosmetics, beverages and nutritional supplement. The compounds can be prepared by substantially cleaving a humic acid of formula I to provide at least one antioxidant compounds of formula II, formula III, formula IV, formula V, formula VI, salts, or chelates thereof.
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KR20160019945 (A)Inventor(s):ADAM GEORGIUS ABIDAL MULTI-FUNCTIONAL PHENOLIC RESINS
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US20160046732 A1, WO/2016/025832 ADAM; Georgius Abidal ; Araxi Makardech. 2016 ASEPTIC POLYMERIC COMPOSITIONS AND METHODS OF USING THE SAME Abstract Aseptic polymers, methods for their preparation, and uses are provided, which include, for example, as disinfectants and other uses.
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US20160033213A1 ADAM; Georgius Abidal ; and MARGALIT; Mordehai. (2016) CONDUCTIVE THERMAL COMPOSITIONS, USES THEREOF, AND METHODS FOR THEIR PREPARATION Abstract Thermal conductive compositions, methods for their preparation, and use are provided, which include, for example, as thermal sinks, heat transfer systems, and other uses.
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US20160066603A1.Inventors:ADAM; Georgius Abidal ;and Scott Needham 2016 FULVIC ACID AND DERIVATIVES AND METHODS OF PREPARATION AND USE Disclosed are antioxidative, natural compounds, their salts, chelates and cleavage derivatives that exhibit a superior combination of properties. The compounds can be used for a variety of purposes, including stabilizing foods, cosmetics, beverages and nutritional supplements. The compounds can be prepared by hydrolyzing a fulvic acid of formula I or VIII to provide at least one antioxidant compounds of formula II, formula III, formula IV, formula V, formula VI, formula VII, salts, or chelates thereof.
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CN105121400 (A) Inventor:ADAM GEORGIUS ABIDA Multifunctional acrylates
The compounds include phenolic and melamine compounds with multi-functional acrylate groups, polyethene glycol and amino groups. The compounds may be cured to form resins that may be used in a variety of applications, such as paints, hydrogels, polyacrylate super absorbent polymers (SAPs), adhesives, composites, sealants, fillers, fire retardants, crosslinking agents, and the like.
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EP3008125 (A1)Inventor(s):ADAM GEORGIUS ABIDAL [AU]MULTI-FUNCTIONAL PHENOLIC RESINS
Disclosed herein are compositions and methods of making phenolic compounds and phenolic resins. The resins include multifunctional epoxies, amino glycidyl derivatives, alkanoate derivatives, alkyl ether derivatives, and multi-functional amines prepared from hydroxymethyl derivatives of novolac resin.
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CN105408411 (A)Inventor(s):ADAM GEORGIUS ABIDAL Multi-functional phenolic resins
Disclosed herein are compositions and methods of making phenolic compounds and phenolic resins. The resins include multifunctional epoxies, amino glycidyl derivatives, alkanoate derivatives, alkyl ether derivatives, and multi-functional amines prepared from hydroxymethyl derivatives of novolac resin.
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EP2986112 (A1)Inventor(s): ADAM GEORGIUS ABIDAL [AU]; NEEDHAM SCOTT ANDREW [AU]: PREPARATION AND USE OF FULVIC ACID DERIVATIVES
.Disclosed are antioxidative, natural compounds, their salts, chelates and cleavage derivatives that exhibit a superior combination of properties. The compounds can be used for a variety of purposes, including stabilising foods, cosmetics, beverages and nutritional supplements. The compounds can be prepared by hydrolyzing a fulvic acid of formula (I) or (VIII) to provide at least one antioxidant compounds of formula (II), formula (III), formula (IV), formula (V), formula (VI), formula (VII), salts, or chelates thereof.
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EP3004070 (A1)Inventor(s): ADAM GEORGIUS ABIDAL [AU]; NEEDHAM SCOTT ANDREW [AU]ANTIOXIDANT HUMIC ACID DERIVATIVES AND METHODS OF PREPARATION AND USE.Disclosed are antioxidative, natural compounds, their salts, chelates and cleavage derivatives that exhibit a superior combination of properties. The compounds can be used for a variety of purposes, including stabilizing foods, cosmetics, beverages and nutritional supplement. The compounds can be prepared by substantially cleaving a humic acid of formula (I) to provide at least one antioxidant compounds of formula (II), formula (III), formula (IV), formula (V), formula (VI), salts, or chelates thereof.
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EP2994305 (A1) Inventor(s): ADAM GEORGIUS ABIDAL [AU]; CARLSON WILLIAM BRENDEN [US]; SJONG ANGELE [US]; WAN FENG [US]; LONDERGAN TIMOTHY MARTIN [US]HYDROPHILIC MICROFIBERS AND NANOFIBERS IN COATING COMPOSITIONS.
Disclosed herein are hydrophilic microfibers and hydrophilic nanofibers, and methods for making these hydrophilic microfibers and nanofibers
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US 20160108275 A1, Inventors:ADAM; Georgius Abidal AU; CARLSON; William Brenden; (WA); SJONG; Angele; WAN; Feng; ( WA); LONERGAN; Timothy Martin; (WA)(2016):
HYDROPHILIC MICROFIBERS AND NANOFIBERS IN COATING COMPOSITIONS
Disclosed herein are hydrophilic microfibers and hydrophilic nanofibers, and methods for making these hydrophilic microfibers and nanofibers. The hydrophilic microfibers and/or nanofibers provide hydrophilic and/or self-cleaning properties when incorporated in paints and coatings.
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WO2015060839 (A1), US2016255872 (A1) Inventors ADAM; Georgius Abidal; Annita Needham(2016)
FOOD ADDITIVE, FOOD PACKAGING ADDITIVES, AND USES THEREOF
Food additives and food packaging materials having phase change materials are provided. Examples of phase change materials include gallic acid esters, tannic acid esters, fulvic acid, chitosan esters, hemicellulose-derived esters, and the like. Methods of making and using the same are also provided.
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EP3060070 (A1)- FOOD ADDITIVE, FOOD PACKAGING ADDITIVES, AND USES THEREOF
Inventor(s): ADAM GEORGIUS ABIDAL [AU]; NEEDHAM ANITA [AU]Food additives and food packaging materials having phase change materials are provided. Examples of phase change materials include gallic acid esters, tannic acid esters, fulvic acid, chitosan esters, hemicellulose-derived esters, and the like. Methods of making and using the same are also provided.
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US -8920932: US20150366188A1
ADAM; Georgius Abidal ;and Scott Needham. 2015
ANTIMICROBIAL POLYMERS AND METHODS FOR THEIR PRODUCTION
Abstract
Antimicrobial or antiseptic polymers may be produced by incorporation of an antimicrobial ingredient into the polymer by grafting, copolymerization, or via a combined antimicrobial/plasticiser ingredient. The polymer may be produced as a masterbatch, or a ready to process polymer for producing antimicrobial products.
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WO 2014209369 Edible plasticisers for human consumptionDisclosed are plasticizers, salts thereof, chelates thereof and cleavage derivatives thereof, that exhibit a superior combination of properties. The plasticizers can be used for a variety of purposes, including food preparation, cosmetics, beverages and polymeric matrices. The plasticizers can be prepared by esterifying gallic acid, fulvic acid, or tannic acid
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WO2014149052:Hydrophilic self cleaning coating composition
Hydrophilic, self-cleaning coating compositions and methods to make and use the compositions are disclosed. The coatings comprise perlite and/or expanded perlite that are activated with hydrophilic agents. The perlites when incorporated in paints provide hydrophilic, self-cleaning and/or biocidal property to the coating.
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WO2014109765: Antimicrobial polymers and methods for their application:
Antimicrobial or antiseptic polymers may be produced by incorporation of an antimicrobial ingredient into the polymer by grafting, copolymerization, or via a combined antimicrobial/plasticizer ingredient. The polymer may be produced as a masterbatch, or a ready to process polymer for producing antimicrobial products. The reactions may be conducted in a reactive extruder to provide a single-step synthesis.
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US-20160255872 A1.inventors: ADAM; Georgius Abidal; and Annita Needham ( 2016) FOOD ADDITIVE, FOOD PACKAGING ADDITIVES, AND USES THEREOF, materials having phase change materials are provided. e.g.gallic acid esters, tannic acid esters, fulvic acid, chitosan esters, hemicellulose derived esters, and the like. Methods of making and using the same are also provided.
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US-20170049134 A1,2017, Inventor: Adam; Georgius Abidal; MEAT TENDERING USING FOOD GRADE NATURAL PRODUCTS FOR REDUCING MUSCLE CONTRACTION Abstract:Compositions and methods that enhance tenderness in meat by reducing muscle contraction and rigor mortis following slaughter are disclosed. The compositions are natural products, including organic acids and polyphenols derived from natural sources, and derivatives and salts thereof.
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EP3077371 (A1),WO 20150843304: US20160368865A1 (2016)GEMINI SURFACTANTS AND METHODS FOR THEIR PREPARATION AND USE.Inventor(s): ADAM GEORGIUS ABIDAL [AU]; CARLSON WILLIAM BRENDEN [US]; SJONG ANGELE [US]; WAN FENG [US]; LONDERGAN TIMOTHY MARTIN [US] Gemini surfactants, and methods for making and using these Gemini surfactants. These Gemini surfactants may be incorporated in paints and coatings to provide hydrophilic and/or self-cleaning properties. Surfactants are compounds composed of both hydrophilic and hydrophobic or lipophilic groups. In view of their dual hydrophilic and hydrophobic nature, surfactants tend to concentrate at the interfaces of aqueous mixtures.
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CN105980351A (2016)
Inventors: ADAM GEORGIUS ABIDAL, CARLSON WILLIAM BRENDEN, A SONG, WAN FENG, LONDERGAN TIMOTHY MARTIN
Gemini surfactants, and methods for making and
Using these Gemini surfactants. These Gemini surfactants may be incorporated in paints and coatings to provide hydrophilic and/or self-cleaning properties. Coatings and paints are routinely used to beautify and protect substrates. The most simple coatings and paints are made of a polymer (the binder) in a solvent (the vehicle), which is commonly called a lacquer
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US-20160181570 A1 2016.Inventors: ADAM; Georgius Abidal;(AU); CARLSON; William Brenden; (WA); BUNTEL; Christopher John; ( SG); HASHIZUME; Kenichi, JP); CASASANTA, III; Vincenzo, WA)
(OLEDs) include a polymeric barrier coating configured to protect the OLEDs from both oxygen and water. Methods for producing and using the coatings are also disclosed.
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WO2015060839: Food additives and food packaging materials having phase change materials are provided. Examples of phase change materials include gallic acid esters, tannic acid esters, fulvic acid, chitosan esters, hemicellulose derived esters, and the like. Methods of making and using the same are also provided.
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WO2015009270: Organic light emitting diodes (OLEDs) include a polymeric barrier coating that is a copolymer of ethylene and substituted vinyl constituents configured to protect the OLEDs from both oxygen and water. The substituted vinyl of the coating may be selected, in conjunction with the permeability properties provided by the ethylene, to include chemical structures, physical structures, and chemical functional groups that effectively and efficiently create a barrier towards both oxygen and water. Methods for producing and using the coatings are also disclosed.
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WO2014193337: Humic acid derivatives as multi-functional natural anti-oxidants and free radical scavengers for food products and packaging, Disclosed are antioxidative, natural compounds, their salts, chelates and cleavage derivatives that exhibit a superior combination of properties. The compounds can be used for a variety of purposes, including stabilizing foods, cosmetics, beverages and nutritional supplement. The compounds can be prepared by substantially cleaving a humic acid of formula (I) to provide at least one antioxidant compounds of formula (II), formula (III), formula (IV), formula (V), formula (VI), salts, or chelates thereof.
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WO2014193338: Natural humic acid additives (stabilisers, plasticisers, antistatic additives) for plastics used in human contact, Disclosed are antioxidative natural compounds, their salts, chelates and cleavage derivatives that exhibit a superior combination of properties. The compounds can be used for a variety of purposes, including the stabilization of polymers. The compounds can be prepared by substantially cleaving a humic acid of formula I followed by esterification to provide at least one antioxidant compounds of formula V, formula VI, formula VII, formula VIII, salts thereof, or chelates thereof.
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WO2014182274: Hydrophylic micro fibres and nano fibers in coating compositions.Disclosed herein are hydrophilic microfibers and hydrophilic nanofibers, and methods for making these hydrophilic microfibers and nanofibers. The hydrophilic microfibers and/or nanofibers provide hydrophilic and/or self-cleaning properties when incorporated in paints and coatings. These hydrophilic microfibers and/or hydrophilic nanofibers may include polymers. In some embodiments, the hydrophilic microfibers and/or hydrophilic nanofibers may be surface activated polymers.
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WO2014171944: Preparation and use of fulvic acid derivatives. Disclosed are ant oxidative, natural compounds, their salts, chelates and cleavage derivatives that exhibit a superior combination of properties. The compounds can be used for a variety of purposes, including stabilizing foods, cosmetics, beverages and nutritional supplements. The compounds can be prepared by hydrolyzing a fulvic acid of formula (I) or (VIII) to provide at least one antioxidant compounds of formula (II), formula (III), formula (IV), formula (V), formula (VI), formula (VII), salts, or chelates thereof.
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30.
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WO2014149052: Hydrophilic, self-cleaning coating compositions and methods to make and use the compositions are disclosed. The coatings comprise perlite and/or expanded perlite that are activated with hydrophilic agents. The perlites when incorporated in paints provide hydrophilic, self-cleaning and/or biocidal property to the coating.
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31.
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CN105121495 (A) ADAM; Georgius Abidal(2015)
MULTI-FUNCTIONAL ACRYLATES
The compounds include phenolic and melamine compounds with multi-functional acrylate groups, polyethylene glycol and amino groups. The compounds may be cured to form resins that may be used in a variety of applications, such as paints, hydrogels, polyacrylate super absorbent polymers (SAPs), adhesives, composites, sealants, fillers, fire retardants, crosslinking agents, and others.
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CN 105121495 (A), WO2014126626 ,Novel multi functional phenolic epoxy resins, Disclosed herein are derivatives of phenolic and melamine compounds, methods of making these derivatives, and methods of using them. The compounds include phenolic and melamine compounds with multi-functional acrylate groups, polyethylene glycol and amino groups. The compounds may be cured to form resins that may be used in a variety of applications, such as paints, hydrogels, polyacrylate super absorbent polymers (SAPs), adhesives, composites, sealants, fillers, fire retardants, crosslinking agents, and the like.
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US20140170346, WO2014070154: Novel classes of polymeric energy storage materials (PCMs) made from modified amorphous wax and waste/recycled materials, Compositions, coatings, and energy storage fabrications made of support polymers or active waxes in a grafted matrix to an amorphous wax and at least one functional compound and their methods of preparation are presented. Amorphous waxes are typified by paraffin waxes. Functional compounds include various fatty alcohols, fatty acids, ester, amines, and amido alkylamines. Sulfonated and oxidized ion exchange resins may be grafted to the matrix.
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US 20130337124:Multi-functional filtrate materials for absorbing ethylene gas released by ripening fruits, flowers, and vegetables, Compositions for adsorbing ethylene gas, methods for adsorbing ethylene gas and process for making these compositions are provided. A composite material may include at least one modified amorphous high softening point wax and at least one active agent. The active agent may include at least one inorganic compound including at least one metal having at least one free p-orbital and/or at least one free d-orbital. The wax and the active agent may each adsorb ethylene.
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US20130237694: New Lignin based concrete admixtures
Methods for converting waste streams from the wood pulping industry to high-value concrete admixtures are described. For example, isolated lignin and lingnosulfonate or waste streams containing lignin and lingnosulfonate can be directly converted to the concrete admixtures, or they may be first converted to their methylol derivatives and treated with further reagents to produce the concrete admixtures.
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US20130337030A: Neutrally buoyant ingestible compositions
A nutriment or medicament may have a neutral buoyancy for being suspended in a liquid, or at a desired depth within the liquid to improve consumption of the nutriment or medicament and reduce waste. Disclosed also are methods for making and using the neutrally buoyant products.
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