Search company, investor...

Advanced BioNutrition

Founded Year



Loan | Alive

Total Raised


Last Raised

$250K | 3 yrs ago

About Advanced BioNutrition

Advanced BioNutrition (ABN) is a technology provider that is focused on offering environmentally sustainable and science-based technology solutions to a variety of industries, including human and animal nutrition and health, and agriculture. ABN's superlative team of scientists, biologists, engineers, and researchers specializes in solving problems related to protecting, stabilizing, and delivering active ingredients into or through food, feed, seed or industrial products.

Headquarters Location

7155 Columbia Gateway Drive

Columbia, Maryland, 21046,

United States


Missing: Advanced BioNutrition's Product Demo & Case Studies

Promote your product offering to tech buyers.

Reach 1000s of buyers who use CB Insights to identify vendors, demo products, and make purchasing decisions.

Missing: Advanced BioNutrition's Product & Differentiators

Don’t let your products get skipped. Buyers use our vendor rankings to shortlist companies and drive requests for proposals (RFPs).

Expert Collections containing Advanced BioNutrition

Expert Collections are analyst-curated lists that highlight the companies you need to know in the most important technology spaces.

Advanced BioNutrition is included in 2 Expert Collections, including Agriculture Technology (Agtech).


Agriculture Technology (Agtech)

1,902 items

Companies that are using technology to make farms more efficient.


Renewable Energy

2,871 items

Includes companies working on technology to support renewable energy generation.

Advanced BioNutrition Patents

Advanced BioNutrition has filed 1 patent.

The 3 most popular patent topics include:

  • Polysaccharides
  • Food additives
  • Sugar substitutes
patents chart

Application Date

Grant Date


Related Topics




Polysaccharides, Food additives, Sugar substitutes, Nutrition, Carbohydrates


Application Date


Grant Date



Related Topics

Polysaccharides, Food additives, Sugar substitutes, Nutrition, Carbohydrates



Latest Advanced BioNutrition News

The Rising Demand For Fortified And Functional Foods Is Expected To Drive Food Encapsulation Market Growth At A 6% Rate As Per The Business Research Company's Food Encapsulation Global Market Report 2022

Apr 6, 2022

Technological advancement is gaining popularity among food encapsulation market trends. Technological advancement is the discovery of knowledge that advances technology. For instance, in February 2022, Givaudan, a Switzerland-based manufacturer of food and flavors, launched PrimeLock+, a breakthrough fat encapsulation technology that reduces 30% of the calories and 75% of the fat content in meat substitutes. The innovation in fat encapsulation also offers increased authenticity and flavour stabilization which allows companies to create tastier, lower-fat, plant-based products such as burgers, sausages, and meatballs while improving the eating experience. Major players in the food encapsulation market are Cargill, Incorporated, DuPont, Royal DSM, FrieslandCampina, Kerry, International Flavors & Fragrances Inc, Symrise, Balchem Inc, Firmenich SA, Advanced Bionutrition Corp, Aveka, Lycored, Encpasys LLC, Blue California, FierslandCampina Kievit, Coating Place Inc, Vitablend, Clextral, Tastetech and Givaudan. The global food encapsulation market overview is segmented by technology into micro encapsulation, nano encapsulation, hybrid technology, macro encapsulation; by shell material into polysaccharides, proteins, lipids, emulsifiers, others; by core phase into minerals, organic acids, vitamins, enzymes, probiotics, additives, essential oils, prebiotics, other substances; by application into dietary supplements, functional food products, bakery products, confectionery, beverages, dairy products, others. North America was the largest region in the food encapsulation market in 2021. Asia-Pacific is expected to be the fastest-growing region in the global food encapsulation market during the forecast period. The regions covered in the global food encapsulation market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, the Middle East, and Africa. Food Encapsulation Global Market Report 2022 – Market Size, Trends, And Global Forecast 2022-2026 is one of a series of new reports from The Business Research Company that provide food encapsulation market overviews, analyze and forecast market size and growth for the whole market, food encapsulation market segments and geographies, food encapsulation market trends, food encapsulation market drivers, food encapsulation market restraints, food encapsulation market leading competitors’ revenues, profiles and market shares in over 1,000 industry reports, covering over 2,500 market segments and 60 geographies. The report also gives in-depth analysis of the impact of COVID-19 on the market. The reports draw on 150,000 datasets, extensive secondary research, and exclusive insights from interviews with industry leaders. A highly experienced and expert team of analysts and modelers provides market analysis and forecasts. The reports identify top countries and segments for opportunities and strategies based on market trends and leading competitors’ approaches. Not the market you are looking for? Check out some similar market intelligence reports:

Advanced BioNutrition Web Traffic

Page Views per User (PVPU)
Page Views per Million (PVPM)
Reach per Million (RPM)
CBI Logo

Advanced BioNutrition Rank

Advanced BioNutrition Frequently Asked Questions (FAQ)

  • When was Advanced BioNutrition founded?

    Advanced BioNutrition was founded in 2001.

  • Where is Advanced BioNutrition's headquarters?

    Advanced BioNutrition's headquarters is located at 7155 Columbia Gateway Drive, Columbia.

  • What is Advanced BioNutrition's latest funding round?

    Advanced BioNutrition's latest funding round is Loan.

  • How much did Advanced BioNutrition raise?

    Advanced BioNutrition raised a total of $26.62M.

  • Who are the investors of Advanced BioNutrition?

    Investors of Advanced BioNutrition include Paycheck Protection Program, Sherbrooke Capital, Arancia Industrial SA de CV, Emerald Technology Ventures, BASF Venture Capital and 10 more.

  • Who are Advanced BioNutrition's competitors?

    Competitors of Advanced BioNutrition include Fulcrum BioEnergy, Edeniq, Stirling Denmark, Zymetis, Garbrook Knowledge Resources and 11 more.

Compare Advanced BioNutrition to Competitors

Evolutionary Genomics

Evolutionary Genomics (EG) is a biotechnology company focusing on how relevant gene/target discovery and validation is performed during the post-genomics era. The company's Adapted Traits platform sifts through vast amounts of genomic data to identify only those genes that have a high likelihood of commercial value for downstream validation. EG applies this platform to identify high-value targets for drug-discovery or genes for use in natural crop yield or pest/disease-resistance enhancement.

Trillium FiberFuels

Trillium FiberFuels, Inc. is a Corvallis, OR based company that has received a grant(s) from the Department of Energy's SBIR/STTR program. The abstract(s) for these grant award(s) are provided as well since they provide insights into Trillium FiberFuels, Inc.'s business and areas of expertise. This project will use an industrial enzyme to convert a "difficult" sugar (xylose) into a fermentable sugar. Use of the enzyme will enable higher utilization of sugars from biomass and make cellulosic ethanol an economically viable source of energy.

Inventure Chemical Technology

Inventure Chemical has developed processes for the direct, efficient production of industrial bio-chemicals and fuels from materials such as algae, agricultural by-products and waste biomass.

Bodega Algae

Bodega Algae, LLC, (Bodega) is a developer of scalable algae photobioreactors. The closed continuous-flow reactors produce high-energy algal biomass for use in the production of biofuel. nnThe Bodega photobioreactor is modular and stackable, allowing it to be co-located efficiently on the premises of industrial plants. The reactor uses nutrients readily drawn from a variety of waste streams. Sources for nutrients include wastewater from domestic sewage, municipal water treatment plants or carbon dioxide (CO2) and nitrogen oxide (NOx) flue gases from industrial plants. The microalgae in the bioreactor converts these compounds to biomass, creating the feedstock for biofuel while improving the environment. nnMicroalgae has advantages when compared to conventional oil crop feedstocks. Algae produces over twenty times the amount of biofuel than soybeans on an equal amount of land due to rapid growth rates and high concentrations of lipids per cell density. In contrast to soybeans and other oil crops, the modest agricultural and resource requirements of microalgae make it an attractive low-cost alternative feedstock. Estimates indicate that algae grown in large volumes could reduce the cost of manufacturing a gallon of biodiesel by half of current rates. Lower costs and greater energy yield will make biofuels economically competitive with petro-fuels. n

Edeniq Logo

Edeniq is a cellulosic and biorefining technology company. Its Pathway Technology is a low-cost solution for producing cellulosic sugars and cellulosic ethanol from corn kernel fiber. Edeniq's capital light and operationally efficient solutions can be easily integrated into existing biorefineries that produce ethanol, other biofuels, biochemicals, and/or bio-based products. Edeniq also develops analytical methods to quantify cellulosic ethanol co-produced with conventional ethanol during fermentation.

Lynntech Logo

Lynntech, Inc. is a College Station, TX based company that has received a grant(s) from the Department of Energy's SBIR/STTR program. The abstract(s) for these grant award(s) are provided as well since they provide insights into Lynntech, Inc.'s business and areas of expertise. The amount of energy stored and the efficiency of nickel-metal hydride batteries, such as those used with intermittent renewable energy sources is limited by the use of a liquid electrolyte. This project will develop a solid hydroxide electrolyte suitable for use in high powered batteries. This project will develop a catalyst to cost-effectively transform renewable sources of energy, such as fats and oils to biodiesel. This technology will reduce the United States' dependence on foreign oil and result in a net decrease in carbon dioxide emissions. This project will address the processing of heavy crude and increase limited, large scale refineries. This project will enable the cost effective refining of heavy crude in the Nation's small refineries as well, which are critical to meeting the Nation's liquid fuel supply. This project will develop a new method for harvesting algae containing bio-oils for biofuel production. This process will enable cost-effective production of advanced biofuels such as biodiesel, green diesel, green gasoline, and green jet fuel reducing our nation's dependence on foreign oil. Magnet harvesting of algae offers the prospect of a significant reduction in the cost of harvesting high oil content algae for biofuel use. Combined with algae's high fuel per acre yield, this can increase the availability of cost effective biofuels. This project will identify infrastructure problems and system requirements to design and fabricate an affordable, safe and energy efficient home hydrogen fueling appliance. It is targeted to meet hydrogen refueling needs of the average US traveler on a daily basis and has potential application as backup power source in emergencies. This project will develop technology that will produce aviation fuels from algae-derived biodiesel, which has significant energy density to be used an alternative transportation fuel source. This project aims to develop an innovative biomass preprocessing system to improve overall bioenergy production efficiency by utilizing an environmentally-friendly approach. The broadbased capabilities of this technology will enable it to perform multiple tasks in a single unit of operation. Renewable fuels from biological feedstocks such as ethanol and biodiesel have been recognized as attractive renewable energy sources; however, the inherently high production costs of these fuels have hampered their widespread application. This project will produce highly efficient catalysts for refining of biological feedstocks offers high efficiency and low-cost production. This project will develop a novel diesel fuel reformer which will provide high quality fuel gas to a Solid Oxide Fuel Cell (SOFC) system with high efficiency and low system complexity. The system will enable SOFC Auxiliary Power Units (APUs) in the 1 - 5 kW range to become economically viable.

Discover the right solution for your team

The CB Insights tech market intelligence platform analyzes millions of data points on vendors, products, partnerships, and patents to help your team find their next technology solution.

Request a demo

CBI websites generally use certain cookies to enable better interactions with our sites and services. Use of these cookies, which may be stored on your device, permits us to improve and customize your experience. You can read more about your cookie choices at our privacy policy here. By continuing to use this site you are consenting to these choices.