Anellotech, Inc.
David Sudolsky has a diverse work experience spanning several industries. David is currently the President & CEO of Anellotech, a company focused on developing cost-effective technology to convert non-food biomass into chemicals. Under their leadership, Anellotech has secured investments from strategic partners and established alliances with industry leaders. Prior to Anellotech, they held various roles at Dura Pharmaceuticals, including VP of Business Development and VP of Marketing. David also worked at Booz, Allen & Hamilton as an Associate and at Union Carbide as an Assistant Staff Engineer, where they provided technical support for process design and plant startup. Additionally, they were a summer engineering intern at Proctor & Gamble.
David Sudolsky obtained a Bachelor's Degree in Chemical Engineering from Columbia Engineering, where they studied from 1975 to 1979. David then pursued further education and earned a Master of Business Administration (M.B.A.) degree with a focus on Marketing, Finance, and International Business from Columbia Business School, which they attended from 1984 to 1985.
This person is not in any offices
Anellotech, Inc.
Anellotech is a sustainable technology company focused on producing cost-competitive renewable chemicals from non-food biomass – an unmet need for a very large addressable chemicals and fuels markets.Anellotech is developing an efficient and eco-friendly thermal catalytic process for converting non-food biomass into aromatics. These bio-basedproducts, chemically identical to petroleum-based aromatics, are used to make important plastics such as polyester (polyethylene terephthalate or “PET”), polystyrenes, polycarbonates, nylons and polyurethanes that ultimately are transformed into consumer goods such as beverage bottles, food packaging, clothing, footwear, carpeting, automotive and electronic components, and more.Anellotech's ultimate competitive advantage is its use of a one-reactor catalytic process. Also, by using renewable and readily available non-food inputs, such as wood, corn stover and bagasse, the Bio-TCat™ process is less expensive than to processes relying on sugar as a feedstock, and avoids competition with the food chain. As a result, these renewable-sourced chemicals are expected to be produced and sold profitably against identical, petroleum-derived BTX counterparts.