Innenrücktitelbild: Scalable Atomic-Layer Tailoring of Abundant Oxide Supports Unlocks Superior Interfaces for Low-Metal-Loading Dehydrogenation (Angew. Chem. 9/2025)
A novel approach to H2 extraction from liquid organic hydrocarbon carriers (LOHCs) using ultralow loading of Pt nanoparticles on a modified alumina structure with an ALD-titanium oxide shell is shown by Yongmin Kim et al. in their Research Article (e202417598). This unique catalyst design efficiently releases hydrogen from LOHCs, outperforming equivalent Pt and commercial catalysts. The ALD-TiO2 shell enhances the catalytic activity while minimizing Pt usage.
- Yeonsu Kwak
- Yu-Jin Lee
- Seongeun Moon
- Kimoon Lee
- Safira Ramadhani
- Eui-Rim On
- Chang-il Ahn
- Son-Jong Hwang
- Hyuntae Sohn
- Hyangsoo Jeong
- Suk Woo Nam
- Chang Won Yoon
- Yongmin Kim
https://onlinelibrary.wiley.com/toc/15213757/2025/137/9
Image created by minjeong Kim / Nanosphere
Innenrücktitelbild: Scalable Atomic-Layer Tailoring of Abundant Oxide Supports Unlocks Superior Interfaces for Low-Metal-Loading Dehydrogenation (Angew. Chem. 9/2025)
A novel approach to H2 extraction from liquid organic hydrocarbon carriers (LOHCs) using ultralow loading of Pt nanoparticles on a modified alumina structure with an ALD-titanium oxide shell is shown by Yongmin Kim et al. in their Research Article (e202417598). This unique catalyst design efficiently releases hydrogen from LOHCs, outperforming equivalent Pt and commercial catalysts. The ALD-TiO2 shell enhances the catalytic activity while minimizing Pt usage.
https://onlinelibrary.wiley.com/toc/15213757/2025/137/9
Image created by minjeong Kim / Nanosphere