Angeliki A. Lemonidou scite author profile

The products of base-catalyzed liquid-phase hydrolysis of lignin depend markedly on the operating conditions. By varying temperature, pressure, catalyst concentration, and residence time, the yield of monomers and oligomers from depolymerized lignin can be adjusted. It is shown that monomers of phenolic derivatives are the only primary products of base-catalyzed hydrolysis and that oligomers form as secondary products. Oligomerization and polymerization of these highly reactive products, however, limit the amount of obtainable product oil containing low-molecular-weight phenolic products. Therefore, inhibition of concurrent oligomerization and polymerization reactions during hydrothermal lignin depolymerization is important to enhance product yields. Applying boric acid as a capping agent to suppress addition and condensation reactions of initially formed products is presented as a successful approach in this direction. Combination of base-catalyzed lignin hydrolysis with addition of boric acid protecting agent shifts the product distribution to lower molecular weight compounds and increases product yields beyond 85%.

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Highly Selective Catalytic Conversion of Phenolic Bio‐Oil to Alkanes

Zhao

et al. 2009

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Aqueous-phase hydrodeoxygenation of bio-derived phenols to cycloalkanes

Zhao

Lemonidou

et al. 2011

Journal of Catalysis

472

290

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Towards understanding the bifunctional hydrodeoxygenation and aqueous phase reforming of glycerol

Wawrzetz

Peng

Hrabar

et al. 2010

Journal of Catalysis

267

250

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Ni–Nb–O mixed oxides as highly active and selective catalysts for ethene production via ethane oxidative dehydrogenation. Part I: Characterization and catalytic performance

Heracleous¹,

Lemonidou²

2006

Journal of Catalysis

252

212

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Investigation of Ni-based alumina-supported catalysts for the oxidative dehydrogenation of ethane to ethylene: structural characterization and reactivity studies

Heracleous

Lee

Wilson

et al. 2005

Journal of Catalysis

313

186

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Hydrodeoxygenation of bio-derived phenols to hydrocarbons using RANEY® Ni and Nafion/SiO₂catalysts

et al. 2010

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Development of new CaO based sorbent materials for CO2 removal at high temperature

Martavaltzi

Lemonidou

2008

Microporous and Mesoporous Materials

220

155

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