Outside Front Cover: Plasma-activated CO₂ and CH₄ are expected to kinetically promote heterogeneous catalysis for efficient gas valorization via mostly vibrational excitation. Highlighting the importance of plasma-surface interaction, comparatively analyzing which type of plasma and catalysts is the most promising, by which the superiority of fluidized-bed dielectric barrier discharge reactor is confirmed. The fluidized bed with an enlarged catalyst surface and heat transfer augmentation enables better plasma-catalyst coupling and highly nonthermal properties. Fluidized-bed plasma catalysis reactor, powered by renewable energy, alternatively contributes to the electrification of chemical processes and thus reduces the net CO₂ emission.

中文翻译：

---

外封面：等离子工艺。聚合物。1/2024

封面外页：等离子体激活的 CO ₂和 CH ₄有望在动力学上促进多相催化，通过主要振动激发实现有效的气体增值。强调等离子体-表面相互作用的重要性，比较分析哪种类型的等离子体和催化剂最有前途，从而证实流化床介质阻挡放电反应器的优越性。流化床具有扩大的催化剂表面和传热增强功能，可实现更好的等离子体-催化剂耦合和高度非热性能。由可再生能源驱动的流化床等离子体催化反应器也有助于化学过程的电气化，从而减少 CO ₂净排放量。