14 Citations
- Avnish KumarB. BiswasB. B. KrishnaT. Bhaskar
- 2021
Environmental Science, Chemistry
Biomass, Biofuels, Biochemicals
- 2
- S. WongRiyang ShuJiaguang ZhangHaichao LiuNing Yan
- 2020
Chemistry, Environmental Science
Chemical Society reviews
It is hoped this review will stimulate further advances in the sustainable production of value-added products from lignin to integrate this invaluable "bio-waste" into the chemical/materials supply chain.
- 183
- G. FioraniC. CrestiniM. SelvaA. Perosa
- 2020
Chemistry, Environmental Science
Frontiers in Chemistry
This Perspective describes the challenges and objectives associated to the development of new chemical technologies for the conversion of lignocellulose (non-food or waste) into chemicals and…
- 12
- PDF
- A. RodriguesP. PintoM. BarreiroCarina A. E. CostaM. I. MotaI. Fernandes
- 2018
Materials Science, Chemistry
This chapter discusses lignin potential as a raw material for polyurethane synthesis having in view the valorization of a coproduct generated by the pulp and paper industry, bioethanol production,…
- 1
- Laura BoqueraE. Olacia L. Cabeza
- 2021
Environmental Science, Materials Science
- 14
- PDF
- Sung-Wook HwangUn Taek Hwang H. Yeo
- 2021
Materials Science, Chemistry
Scientific Reports
Predictive models for the non-destructive evaluation of the carbonization characteristics of lignin-derived hydrochars as a carbon material in real time demonstrate better prediction than ordinary least squares regression models.
- 9
- PDF
- Auwal MuhammadP. KhunraeT. Sutthibutpong
- 2020
Environmental Science, Chemistry
Journal of Molecular Modeling
The inhibitory effect of oligolignols was size dependent, as the estimated binding energy of the tetrameric oligolIGNol became stronger than that of the xylohexaose substrate, and the important binding residues were identified for future protein engineering attempts to enhance the lignin resistivity of GH11.
- 10
- M. HasanM. Ahmed Syeda Farjana Hoque
- 2020
Biology, Environmental Science
bioRxiv
Five gene targets, namely, NAC Domain Containing Protein, WRKY DNA binding protein, 3-dehydroquinate synthase, S-adenosyl-L-Met–dependent methyl transferase and Vascular-related NAC-Domain were found to be involved in the lignin biosynthesis, phenylpropanoid pathways and secondary wall formation which could play significant roles in the overall fibre biogenesis.
- PDF
- Mohammad Mahbubul AlamA. GrecoZahra RajabimashhadiC. E. Corcione
- 2024
Environmental Science, Materials Science
Cleaner Materials
- 1
- N. Sasi KumarD. GrekovP. PréB. Alappat
- 2024
Materials Science, Chemistry
Sustainable Materials and Technologies
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80 References
- Brianna M UptonA. Kasko
- 2016
Materials Science, Environmental Science
Chemical reviews
This Review focuses on methods developed to synthesize polymers derived from lignin, monolignols, and lignIn-derived chemicals, such as vanillin.
- 1,024
- J. LoraW. Glasser
- 2002
Materials Science, Environmental Science
Lignin represents a vastly under-utilized natural polymer co-generated during papermaking and biomass fractionation. Different types of lignin exist, and these differ with regard to isolation…
- 1,096
- Alexey VishtalA. Kraslawski
- 2011
Engineering, Environmental Science
The primary aim of modern biorefineries is the efficient conversion of lignocellulosic materials into valuable products. Sugars and oils can be converted into valuable chemicals, but processing of…
- 580
- PDF
- Hao LuoI. Klein M. Abu‐Omar
- 2016
Environmental Science, Chemistry
Lignin as a polymer of monomeric aromatic compounds retains great potential to be a source for liquid fuels and valuable chemicals. However, lignin from biomass has been traditionally treated as a…
- 163
- PDF
- Trenton H. ParsellS. Yohe M. Abu‐Omar
- 2015
Environmental Science, Chemistry
A bimetallic Zn/Pd/C catalyst is reported on that converts lignin in intact lignocellulosic biomass directly into two methoxyphenol products, leaving behind the carbohydrates as a solid residue.
- 297
- PDF
- P. AzadiOliver Richard InderwildiR. FarnoodDavid A. King
- 2013
Environmental Science, Chemistry
- 896
- M. PandeyChang-Soo Kim
- 2011
Chemistry, Environmental Science
The structure of lignin suggests that it can be a valuable source of chemicals, particularly phenolics. However, lignin depolymerization with selective bond cleavage is the major challenge for…
- 1,173
- C. TuckE. PérezI. HorváthR. SheldonM. Poliakoff
- 2012
Environmental Science, Chemistry
Science
The opportunities for diverting existing residual biomass—the by-products of present agricultural and food-processing streams—to this end are highlighted.
- 1,690
- D. KaiM. J. TanP. CheeY. K. ChuaY. L. YapX. Loh
- 2016
Materials Science, Environmental Science
In light of the incessant consumption of raw materials in the world today, the search for sustainable resources is ever pressing. Lignin, the second most naturally abundant biomass, which makes up…
- 770
- A. RagauskasG. Beckham C. Wyman
- 2014
Environmental Science, Engineering
Science
Recent developments in genetic engineering, enhanced extraction methods, and a deeper understanding of the structure of lignin are yielding promising opportunities for efficient conversion of this renewable resource to carbon fibers, polymers, commodity chemicals, and fuels.
- 3,060
- PDF
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