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Lignin Conversion Catalysis [2022]
- 1
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Background and Overview
- 13
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Lignin Biosynthesis and Structure
- 39
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Lignin Isolation, Physicochemistry Properties, and Chemical Properties
- 79
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Scientific Questions for Lignin Conversion and a Brief Summary of Methods for Lignin Depolymerization
- 131
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The Inverse Disassembly Analysis Method for Classifying Lignin Conversion Strategies
- 147
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Direct Lignin <fc>C</fc> – <fc>OAr</fc> , <fc>ArO</fc> – <fc>Ar</fc> or <fc>C</fc> – <fc>Ar</fc> Bonds Cleavage without First Activation of the Adjacent Chemical Bonds
- 189
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Lignin <fc>C</fc> – <fc>C</fc> / <fc>C</fc> – <fc>O</fc> Bonds Cleavage via First Phenolic Hydroxyl Group Dehydrogenation or First Aromatic Rings Activation
- 241
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Lignin Linkages Cleavage Beginning with C <sub>α</sub> O–H/ArO–H or C <sub>α</sub> –OH Bond Heterolysis
- 277
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Lignin Linkages Cleavage Beginning with C <sub>α</sub> –H, C <sub>α</sub> –OH, or C <sub>α</sub> O–H Bond Non‐ionized Activation
- 363
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Lignin Linkages Cleavage Beginning with C <sub>β</sub> –H, C <sub>γ</sub> –H, or C <sub>γ</sub> O–H Direct Activation
- 381
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Lignin Linkages Cleavage Considering Fragments Condensation
- 409
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Summary on Lignin Utilization and Perspectives on Preparation of Aromatic Chemicals
- 439
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Index
- i
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Front Matter
