{"id":"CU26256","slug":"electrochemical-lignin--CU26256","source":{"id":"CU26256","dataset":"techtransfer","title":"Electrochemical lignin extraction for sustainable biomass conversion","description_":"

This technology is an integrated electrochemical platform that enables low chemical lignin extraction via in situ hydrogen peroxide generation and pH control, producing high-quality feedstocks for polymers, carbon materials, and fuels.

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Unmet Need: Sustainable and scalable extraction of useful chemicals from biomass

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Current methods for biomass processing, such as kraft and sulfite pulping, require strong alkaline or acidic reagents due to the high degree of crosslinking. The harsh production process decreases the resultant yield of carbon products, resulting in large costs and low efficiencies. Biomass sources such as coconut shells, can be sources of lignocellulose but are currently treated as waste. The burning and processing of these sources of lignocellulose result in large amounts of CO2 emissions. Thus, there is a need to safely process agricultural waste and extract useful, specifically lignocellulose-derived products.

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The Technology: Electrochemical biomass conversion to lignin and graphic carbon

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This technology is an integrated electrochemical process that recovers lignin and graphitic carbon from lignocellulose biomass. Lignin is extracted via in situ hydrogen peroxide generation through a two-electron oxygen reduction reaction, followed by electrochemically driven pH swing or reacted with KOH to form porous graphitic carbon. The use of milder reaction conditions reduces tar formation and improves product yield. The resulting products can be further converted into synthetic gas, polymers, or other products.

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Applications:

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Advantages:

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Lead Inventor:

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Greeshma Gadikota, Ph.D.

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Patent Information:

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Patent Pending

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Related Publications:

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Tech Ventures Reference:

\r\r\r","tags":["Aromatic compound","Biomass","Carbon","Carbon fibers","Cross-link","Electrochemistry","Electrode","Kraft process","Lignin","Lignocellulosic biomass","Magnesium","Phenol formaldehyde resin","Polymer","Rare-earth element","Redox","Silicate","Syngas"],"file_number":"CU26256","collections":[],"meta_description":"Electrochemical, mild-condition lignin extraction from biomass enables co-production of porous graphitic carbon and synthesis gas.","apriori_judge_output":"{\"scores\":{\"novelty\":4.0,\"potential_impact\":4.0,\"readiness\":3.0,\"scalability\":4.0,\"timeliness\":3.0},\"weighted_score\":3.5,\"risks\":[\"Novelty relies on integrated electrochemical steps; ensure independent validation\",\"Scale-up challenges for lignin preprocessing and peroxide management\",\"Long-term stability of lignin-derived products under various downstream uses\",\"IP landscape uncertainty with pending patent\",\"Regulatory and environmental considerations for new chemical processes\"],\"one_sentence_take\":\"Promising integrated electrochemical lignin extraction concept with good novelty and impact, but needs stronger readiness validation and clear scale-up/IP protection to meet near-term commercialization.\"}","inventors":["Greeshma Gadikota","Vaibhav Upadhayay"],"manager":"Dovina Qu","depts":["Earth & Environmental Engineering"],"divs":["Fu Foundation School of Engineering and Applied Science (SEAS)"],"date_released":"2026-05-01"},"highlight":{},"matched_queries":null,"score":0.0}