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Plasma-based NH₃ cracking: A better insight in the performance by chemical kinetics modelling.
S. Bang, S. Maerivoet, I. Tsonev, F. Reniers and A. Bogaerts
ChemSusChem, e202501984 (2026).

Spatially resolved modelling of NH₃ cracking in warm plasma.
R. Quiroz Marnef, S. Maerivoet, I. Tsonev, F. Reniers and A. Bogaerts
and ​

Plasma technology for the electrification of chemical reactions.
A. Bogaerts
​ and ​

Plasma-assisted NH₃ cracking in warm plasma reactors for green H₂ production.
I. Fedirchyk, I. Tsonev, R. Quiroz Marnef and A. Bogaerts
​ and ​

Correction: From the Birkeland–Eyde process towards energy-efficient plasma-based NO_x synthesis: A techno-economic analysis.

K.H.R. Rouwenhorst, F. Jardali, A. Bogaerts and L. Lefferts

​

​Plasma-catalytic ammonia synthesis: Packed catalysts act as plasma modifiers.

C. Ndayirinde, Y. Gorbanev, R.-G. Ciocarlan, R. De Meyer, A. Smets, E. Vlasov, S. Bals, P. Cool and A. Bogaerts

and ​

Nitrogen fixation by an arc plasma at elevated pressure to increase the energy efficiency and production rate of NOx.

I. Tsonev, C. O’Modhrain, A. Bogaerts and Y. Gorbanev

and ​

Producing oxygen and fertilizer with the Martian atmosphere by using microwave plasma.
S. Kelly, C. Verheyen, A. Cowley and A. Bogaerts
​ and its ​

Effusion nozzle for energy-efficient NOx production in a rotating gliding arc plasma reactor.
S. Van Alphen, H. Ahmadi Eshtehardi, C. O’Modhrain, J. Bogaerts, H. Van Poyer, J. Creel, M.-P. Delplancke, R. Snyders and A. Bogaerts
​ and its ​

Energy-efficient small-scale ammonia synthesis process with plasma-enabled nitrogen oxidation and catalytic reduction of adsorbed NOx.

L.Hollevoet, E. Vervloessem, Y. Gorbanev, A. Nikiforov, N. De Geyter, A. Bogaerts and J.A. Martens

 and its ​

Sustainable NOx production from air in pulsed plasma: elucidating the chemistry behind the low energy consumption.

E. Vervloessem, Y. Gorbanev, A. Nikiforov, N. De Geyter and A. Bogaerts​

 and its ​
​

Nitrogen fixation in an electrode-free microwave plasma.
S. Kelly, A. Bogaerts
 and its 

From the Birkeland–Eyde process towards energy-efficient plasma-based NO_X synthesis: a techno-economic analysis.
K.H.R. Rouwenhorst, F. Jardali, A. Bogaerts and L. Lefferts
  Correction published in 2023: ​

NO_x production in a rotating gliding arc plasma: Potential avenue for sustainable nitrogen fixation.
F. Jardali, S. Van Alphen, J. Creel, H.A. Eshtehardi, M. Axelsson, R. Ingels, R. Snyders and A. Bogaerts
 and its ​

Plasma-driven catalysis: green ammonia synthesis with intermittent electricity.
K.H.R. Rouwenhorst, Y. Engelmann, K. van ‘t Veer, R.S. Postma, A. Bogaerts and L. Lefferts​

Plasma-based N₂ fixation into NOx: Insights from modeling toward optimum yields and energy costs in a gliding arc plasmatron.
E. Vervloessem, M. Aghaei, F. Jardali, N. Hafezkhiabani and A. Bogaerts
and its ​

Towards green ammonia synthesis through plasma-driven nitrogen oxidation and catalytic reduction.
L. Hollevoet, F. Jardali, Y. Gorbanev, J. Creel, A. Bogaerts, and J. A. Martens
​

Nitrogen fixation with water vapor by nonequilibrium plasma: Towards sustainable ammonia production.
Y. Gorbanev, E. Vervloessem, A. Nikiforov and A. Bogaerts

Power pulsing to maximize vibrational excitation efficiency in N₂ microwave plasma: A combined experimental and computational study.
S. Van Alphen, V. Vermeiren, T. Butterworth, D. C. M. van den Bekerom, G. J. van Rooij and A. Bogaerts

Plasma technology: An emerging technology for energy storage.
A. Bogaerts and E.C. Neyts
  (Invited feature article and selected to be featured in ACS Editors' Choice + Free Open Access)

Nitrogen fixation by gliding arc plasma: better insight by chemical kinetics modelling.
W. Wang, B. Patil, S. Heijkers, V. Hessel and A. Bogaerts
  (Paper featered on the , as "cover profile" and "very important paper" of ChemSusChem)