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Lignin Conversion Catalysis 1st Edition

Name: Lignin Conversion Catalysis 1st Edition
SKU: EB-48185044
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Lignin Conversion Catalysis 1st Edition Chaofeng Zhang Digital Instant Download

Author(s): Chaofeng Zhang, Feng Wang

ISBN(s): 9783527349739, 9783527835010, 9783527835027, 9783527835034, 3527349731, 3527835016, 3527835024, 3527835032

Edition: 1st

File Details: PDF, 25.17 MB

Year: 2022

Language: English

SKU: EB-48185044 Category: Engineering - Chemical Engineering Tags: Chaofeng Zhang, Feng Wang, Lignin Conversion Catalysis, Transformation

Description

Lignin Conversion Catalysis 1st Edition – Ebook Instant Download/Delivery ISBN(s): 9783527349739,9783527835010,9783527835027,9783527835034,3527349731,3527835016,3527835024,3527835032

Product details:

ISBN-10: 3527835024
ISBN-13: 9783527835027
Author: Chaofeng Zhang, Feng Wang

Lignin Conversion Catalysis: Transformation to Aromatic Chemicals covers the strategy, catalysis, and mechanisms of cleaving lignin linkages to aromatic chemicals and crucially elaborates on the specifics of multiple original lignins.

Table contents:

Part I Book introduction
1. Background and overview

Part II Understanding about the lignin
2. Lignin biosynthesis, structure, and physicochemistry properties
3. Lignin isolation and lignin pre-chemical modification
4. Lignin detection, quantification and structure characterization

Part III Lignin depolymerization: scientific questions, challenges and current progress
5. Scientific questions for lignin conversion and new biorefinery
6. Brief summary of methods for lignin depolymerization

Part IV Strategies review on lignin linkages cleavage involved in lignin depolymerization via the inverse disassembly analysis
7. The inverse disassembly analysis (IDA) method for classifying lignin conversion methods/strategies
8. Direct lignin C-Oar, ArO-Ar or C-Ar bonds cleavage without first activation of the adjacent chemical bonds
9. Lignin linkages cleavage beginning with phenolic hydroxyl group dehydrogenation or first aromatic rings activation
10. Lignin linkages cleavage beginning with C alpha-H or ArO-H heterolysis
11. Lignin linkages cleavage beginning with C alpha-OH bond heterolysis
12. Lignin linkages cleavage beginning with the activation of C alpha-H, C alpha-OH or C alpha O-H bonds via non-ionized routes
13. Lignin linkages cleavage beginning with C beta-H direct activation
14. Lignin linkages cleavage beginning with C gamma-H or C gammaO-H direct activation
15. Lignin depolymerization strategies considering fragments condensation

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