TY - JOUR
T1 - New Opportunities in the Valorization of Technical Lignins
AU - Balakshin, Mikhail Yu
AU - Capanema, Ewellyn A.
AU - Sulaeva, Irina
AU - Schlee, Philipp
AU - Huang, Zeen
AU - Feng, Martin
AU - Borghei, Maryam
AU - Rojas, Orlando J.
AU - Potthast, Antje
AU - Rosenau, Thomas
N1 - Funding Information:
The authors are grateful to Prof. Michael Hummel (Aalto University) for fruitful discussions. The photograph for the frontispiece was kindly provided by O. Musl.
Publisher Copyright:
© 2020 Wiley-VCH GmbH
PY - 2021/2/18
Y1 - 2021/2/18
N2 - Sugar-based biorefineries have faced significant economic challenges. Biorefinery lignins are often classified as low-value products (fuel or low-cost chemical feedstock) mainly due to low lignin purities in the crude material. However, recent research has shown that biorefinery lignins have a great chance of being successfully used as high-value products, which in turn should result in an economy renaissance of the whole biorefinery idea. This critical review summarizes recent developments from our groups, along with the state-of-the-art in the valorization of technical lignins, with the focus on biorefinery lignins. A beneficial synergistic effect of lignin and cellulose mixtures used in different applications (wood adhesives, carbon fiber and nanofibers, thermoplastics) has been demonstrated. This phenomenon causes crude biorefinery lignins, which contain a significant amount of residual crystalline cellulose, to perform superior to high-purity lignins in certain applications. Where previously specific applications required high-purity and/or functionalized lignins with narrow molecular weight distributions, simple green processes for upgrading crude biorefinery lignin are suggested here as an alternative. These approaches can be easily combined with lignin micro-/nanoparticles (LMNP) production. The processes should also be cost-efficient compared to traditional lignin modifications. Biorefinery processes allow much greater flexibility in optimizing the lignin characteristics desirable for specific applications than traditional pulping processes. Such lignin engineering, at the same time, requires an efficient strategy capable of handling large datasets to find correlations between process variables, lignin structures and properties and finally their performance in different applications.
AB - Sugar-based biorefineries have faced significant economic challenges. Biorefinery lignins are often classified as low-value products (fuel or low-cost chemical feedstock) mainly due to low lignin purities in the crude material. However, recent research has shown that biorefinery lignins have a great chance of being successfully used as high-value products, which in turn should result in an economy renaissance of the whole biorefinery idea. This critical review summarizes recent developments from our groups, along with the state-of-the-art in the valorization of technical lignins, with the focus on biorefinery lignins. A beneficial synergistic effect of lignin and cellulose mixtures used in different applications (wood adhesives, carbon fiber and nanofibers, thermoplastics) has been demonstrated. This phenomenon causes crude biorefinery lignins, which contain a significant amount of residual crystalline cellulose, to perform superior to high-purity lignins in certain applications. Where previously specific applications required high-purity and/or functionalized lignins with narrow molecular weight distributions, simple green processes for upgrading crude biorefinery lignin are suggested here as an alternative. These approaches can be easily combined with lignin micro-/nanoparticles (LMNP) production. The processes should also be cost-efficient compared to traditional lignin modifications. Biorefinery processes allow much greater flexibility in optimizing the lignin characteristics desirable for specific applications than traditional pulping processes. Such lignin engineering, at the same time, requires an efficient strategy capable of handling large datasets to find correlations between process variables, lignin structures and properties and finally their performance in different applications.
KW - biorefinery
KW - crystalline cellulose
KW - Lignin
KW - lignin valorization
KW - nanoparticles
UR - http://www.scopus.com/inward/record.url?scp=85099205071&partnerID=8YFLogxK
U2 - 10.1002/cssc.202002553
DO - 10.1002/cssc.202002553
M3 - Review Article or Literature Review
C2 - 33285039
AN - SCOPUS:85099205071
SN - 1864-5631
VL - 14
SP - 1016
EP - 1036
JO - ChemSusChem
JF - ChemSusChem
IS - 4
ER -