CO2 conversion and dry reforming of methane

	Preheating applied on a 915 MHz CO₂ microwave plasma: Unlocking the potential for heat recycling in plasma systems. E.R. Mercer, C.F.A.M. van Deursen, F.J.J. Peeters, W.A. Bongers, F.M.A. Smits, M.C.M. van de Sanden and A. Bogaerts
	Techno-economic and life-cycle assessment for syngas production using sustainable plasma-assisted methane reforming technologies. M. Escribà-Gelonch, J. Osorio-Tejada, L. Yu, B. Wanten, A. Bogaerts and V. Hessel
	Plasma technology for the electrification of chemical reactions. A. Bogaerts and
	Post-plasma carbon bed design for CO₂ conversion: Does size and insulation matter? C. O’Modhrain, Y. Gorbanev and A. Bogaerts and
	Coupling a CO₂ plasma with a carbon bed: The closer the better. O. Biondo, K. Wang, H. Zhang and A. Bogaerts
	CO₂ conversion to CO via plasma and electrolysis: A techno-economic and energy cost analysis. J. Osorio-Tejada, M. Escriba-Gelonch, R. Vertongen, A. Bogaerts and V. Hessel
	Upscaling plasma-based CO₂ conversion: Case study of a multi-reactor gliding arc plasmatron. C. O’Modhrain, G. Trenchev, Y. Gorbanev and A. Bogaerts and
	Plasma-based dry reforming of CH₄: Plasma effects vs. thermal conversion. J. Slaets, B. Loenders and A. Bogaerts and supporting information
	Avoiding solid carbon deposition in plasma-based dry reforming of methane. O. Biodo, C.F.A.M. van Deursen, A. Hughes, A. van de Steeg, W. Bongers, M.C.M. van de Sanden, G. van Rooij and A. Bogaerts
	Plasma-assisted dry reforming of CH₄: How small amounts of O₂ addition can drastically enhance the oxygenate production-experiments and insights from plasma chemical kinetics modeling. S. Li, J. Sun, Y. Gorbanev, K. van’t Veer, B. Loenders, Y. Yi, T. Kenis, Qi Chen and A. Bogaerts and
	Plasma-based CO₂ conversion: How to correctly analyze the performance? B. Wanten, R. Vertongen, R. De Meyer and A. Bogaerts and and
	Modelling post-plasma quenching nozzles for improving the performance of CO₂ microwave plasmas. S. Van Alphen, A. Hecimovic, C.K. Kiefer, U. Fantz, R. Snyders and A. Bogaerts and
	Producing oxygen and fertilizer with the Martian atmosphere by using microwave plasma. S. Kelly, C. Verheyen, A. Cowley and A. Bogaerts and its
	Carbon bed post-plasma to enhance the CO₂ conversion and remove O₂ from the product stream. F. Girard-Sahun, O. Biondo, G. Trenchev, G. van Rooij and A. Bogaerts and its
	Dry reforming of methane in an atmospheric pressure glow discharge: Confining the plasma to expand the performance. B. Wanten, S. Maerivoet, C. Vantomme, J. Slaets, G. Trenchev and A. Bogaerts and its .
	Oxygenate production from plasma-activated reaction of CO₂ and ethane. A.N. Biswas, L R. Winter, B. Loenders, Z. Xie, A. Bogaerts and J.G. Chen and its .
	On the kinetics and equilibria of plasma-based dry reforming of methane. Y. Uytdenhouwen, K.M. Bal, E.C. Neyts, V. Meynen, P. Cool and A. Bogaerts
	Plasma-based CO₂ conversion: To quench or not to quench? V. Vermeiren and A. Bogaerts
	Plasma technology for CO₂ conversion: A personal perspective on prospects and gaps. A. Bogaerts and G. Centi
	CO₂ and CH₄ conversion in “real” gas mixtures in a gliding arc plasmatron: how do N₂ and O₂ aﬀect the performance? J. Slaets, M. Aghaei, S. Ceulemans, S. Van Alphen and A. Bogaerts
	Modeling plasma-based CO₂ and CH₄ conversion in mixtuires with N₂, O₂ and H₂O: The bigger plasma chemistry picture. W. Wang, R. Snoecks, X. Zhang, M.S. Cha and A. Bogaerts and its . (Invited feature article and selected for the ).
	Plasma technology - a novel solution for CO₂ conversion? R. Snoeckx and A. Bogaerts (Paper featered on the )
	Dry reforming of methane in a gliding arc plasmatron: towards a better understanding of the plasma chemistry. E. Cleiren, S. Heijkers, M. Ramakers and A. Bogaerts and its . ()
	Gliding arc plasmatron: providing an alternativemethod for carbon dioxide conversion. M. Ramakers, G. Trenchev, S. Heijkers, W. Wang and A. Bogaerts and its .
	The quest for value-added products from carbon dioxide and water in a dielectric barrier discharge: a chemical kinetics study. R. Snoeckx, A. Ozkan, F. Reniers and A. Bogaerts and its .
	CO₂ conversion in a dielectric barrier discharge plasma: N₂ in the mix as a helping hand or problematic impurity? R. Snoeckx, S. Heijkers, K. Van Wesenbeeck, S. Lenaerts and A. Bogaerts and its .
	Carbon dioxide splitting in a dielectric barrier discharge plasma: a combined experimental and computational study. R. Aerts, W. Somers and A. Bogaerts
	Plasma-based conversion of CO₂: current status and future challenges. A. Bogaerts, T. Kozák, K. Van Laer and R. Snoeckx
	The dominant pathways for the conversion of methane into oxygenates and syngas in an atmospheric pressure dielectric barrier discharge. C. De Bie, J. van Dijk and A. Bogaerts
	Splitting of CO₂ by vibrational excitation in non-equilibrium plasmas: a reaction kinetics model. T. Kozák and A. Bogaerts (Selected by the editors of Plasma Sources Science and Technology as one of the “Highlights of 2014")

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