Biolign -

Carbon fiber is strong, light, and expensive—because it is made from polyacrylonitrile (PAN), a petroleum product that costs roughly $15-30 per kg. BioLign offers a cheaper, renewable precursor. Early trials show that lignin-based carbon fibers (spun through melt-blowing techniques) are 50-70% cheaper to produce. While they currently lack the ultimate tensile strength of PAN fibers for aerospace wings, they are perfect for automotive parts, wind turbine blades, and consumer electronics. A car built with BioLign carbon fiber stores carbon in its chassis rather than emitting it from a tailpipe.

First, . Lignin from softwood (pine) is chemically different from hardwood (oak) or grass (wheat straw). BioLign processes must be tuned to the feedstock. A "one-size-fits-all" lignin does not exist. BioLign

Enter .

In the shadow of towering pine forests and amidst the hum of sawmills, a quiet revolution is taking place. For centuries, when we looked at a tree, we saw lumber for homes, pulp for paper, or logs for firewood. We saw a material that was either structural or sacrificial. Carbon fiber is strong, light, and expensive—because it