Author pages are created from data sourced from our academic publisher partnerships and public sources.
- Publications
- Influence
Towards quantitative catalytic lignin depolymerization.
- Virginia. M. Roberts, Valentin Stein, T. Reiner, A. Lemonidou, X. Li, J. Lercher
- Chemistry, Medicine
- Chemistry
- 16 May 2011
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… Expand
Towards understanding the bifunctional hydrodeoxygenation and aqueous phase reforming of glycerol
- A. Wawrzetz, Baoxiang Peng, A. Hrabar, A. Jentys, A. Lemonidou, J. Lercher
- Chemistry
- 5 February 2010
Kinetically coupled reactions of glycerol in water over bifunctional Pt/Al2O3 catalysts are explored as a function of the Pt particle size and the reaction conditions. Detailed analysis of the… Expand
Investigation of Ni-based alumina-supported catalysts for the oxidative dehydrogenation of ethane to ethylene: structural characterization and reactivity studies
- E. Heracleous, A. Lee, K. Wilson, A. Lemonidou
- Chemistry
- 1 April 2005
In this study, we report the development of efficient Al 2O3-supported Ni and promoted Ni–Me (Me = Mo, V, Nb, Ta, Co) catalysts for the oxidative dehydrogenation of ethane. The effect of nickel… Expand
Aqueous-phase hydrodeoxygenation of bio-derived phenols to cycloalkanes
- C. Zhao, Jiayue He, A. Lemonidou, Xuebing Li, J. Lercher
- Chemistry
- 16 May 2011
The kinetics of the catalytic hydrodeoxygenation of phenol and substituted phenols has systematically been investigated on the dual-functional catalyst system Pd/C and H(3)PO(4) in order to better… Expand
Oxidative dehydrogenation of propane over vanadium oxide based catalysts: Effect of support and alkali promoter
- A. Lemonidou, L. Nalbandian, I. A. Vasalos
- Chemistry
- 1 August 2000
The oxidative dehydrogenation of propane was investigated using vanadia type catalysts supported on Al2O3 ,T iO 2, ZrO2 and MgO. The promotion of V2O5/Al2O3 catalyst with alkali metals (Li, Na, K)… Expand
Thermodynamic analysis of hydrogen production via autothermal steam reforming of selected components of aqueous bio-oil fraction
- Ekaterini Ch. Vagia, A. Lemonidou
- Chemistry
- 1 February 2007
From a technical and economic point of view, autothermal steam reforming offers many advantages, as it minimizes heat load demand in the reformer. Bio-oil, the liquid product of biomass pyrolysis,… Expand
Development of new CaO based sorbent materials for CO2 removal at high temperature
- Christina S. Martavaltzi, A. Lemonidou
- Chemistry
- 1 April 2008
Abstract This study focuses on developing a CO2 sorbent with high sorption capacity (higher than 6 mol/kg of sorbent) and long life-time. The target value of the sorption capacity was attained by… Expand
Ni–Nb–O mixed oxides as highly active and selective catalysts for ethene production via ethane oxidative dehydrogenation. Part I: Characterization and catalytic performance
- E. Heracleous, A. Lemonidou
- Chemistry
- 2006
Abstract This work demonstrates the high potential of a new class of catalytic materials based on nickel for the oxidative dehydrogenation of ethane to ethylene. The developed bulk Ni–Nb–O mixed… Expand
Hydrogen Production via Reforming of the Aqueous Phase of Bio-Oil over Ni/Olivine Catalysts in a Spouted Bed Reactor
- P. Kechagiopoulos, S. Voutetakis, A. Lemonidou, I. A. Vasalos
- Materials Science
- 4 February 2009
Hydrogen produced from renewable energy sources can present significant environmental benefits as a means for clean power generation via fuel cells. The aqueous fraction of bio-oil can be used as a… Expand
Activity study of NiO-based oxygen carriers in chemical looping steam methane reforming
- A. Antzara, E. Heracleous, L. Silvester, D. Bukur, A. Lemonidou
- Chemistry
- 1 September 2016
Abstract This study evaluates the performance of NiO-based oxygen carriers supported on ZrO 2 , TiO 2 , SiO 2 , Al 2 O 3 and NiAl 2 O 4 as conventional reforming catalysts at low temperature (650 °C)… Expand