prof. dr. Vladimir Galvita
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In-situ XAS study of trifunctional Ni-Ca-Fe materials for super-dry reforming.
(2025) -
Evolution of Low Z Elements in a Super Dry Reforming Catalyst
(2023) -
Multifunctional Materials for CO2 Capture and Conversion
(2023) -
Intensifying biomass and solid waste pyrolysis by chemical looping
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Dual-element modulation excitation XAS to probe the redox surface chemistry of a Ni–Fe dry reforming catalyst
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High temperature H2S removal via CO2-assisted chemical looping over ZrO2-modified Fe2O3
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- Journal Article
- A2
- open access
Chemical looping : a technology platform for upcycling low-grade industrial resources
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Tuning CO2 methanation selectivity via MgO/Ni interfacial sites
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In-situ XRS and XES to follow Ni/MgFeAlO4 restructuring upon high-temperature redox treatment and methane dry reforming
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Modulation engineering : rational stimulation design for enhanced frequency content in modulation-excitation experiments