Improving the Oxygen Evolution Reaction on Fe3O4(001) with Single-Atom Catalysts
E Bianchetti, D Perilli, C Di Valentin - ACS catalysis, 2023 - ACS Publications
Doping magnetite surfaces with transition-metal atoms is a promising strategy to improve the
catalytic performance toward the oxygen evolution reaction (OER), which governs the …
catalytic performance toward the oxygen evolution reaction (OER), which governs the …
Surface structure of magnetite (111) under oxidizing and reducing conditions
We report on differences in the magnetite (111) surface structure when prepared under
oxidizing and reducing conditions. Both preparations were done under UHV conditions at …
oxidizing and reducing conditions. Both preparations were done under UHV conditions at …
Modeling charge redistribution at magnetite interfaces in empirical force fields
M Konuk, K Sellschopp… - The journal of …, 2021 - ACS Publications
Magnetite shows enormous potential from biocompatible hybrid materials to heterogeneous
catalysis. However, a detailed atomistic understanding of magnetite in complex …
catalysis. However, a detailed atomistic understanding of magnetite in complex …
Oxygen Evolution Reaction on the Fe3O4(001) Surface: Theoretical Insights into the Role of Terminal and Bridging Oxygen Atoms
Model catalysts, where the structure of single-crystal materials with well-defined surface
terminations can be determined at the atomic level, are useful systems to perform …
terminations can be determined at the atomic level, are useful systems to perform …
Dual Lewis site creation for activation of methanol on Fe 3 O 4 (111) thin films
Despite a wide application in heterogeneous catalysis, the surface termination of Fe3O4
(111) remains controversial. Herein, a surface with both Lewis acid and base sites is created …
(111) remains controversial. Herein, a surface with both Lewis acid and base sites is created …
Stability of Iridium Single Atoms on Fe3O4(001) in the mbar Pressure Range
N Comini, JT Diulus, GS Parkinson… - The Journal of …, 2023 - ACS Publications
Stable single metal adatoms on oxide surfaces are of great interest for future applications in
the field of catalysis. We studied iridium single atoms (Ir1) supported on a Fe3O4 (001) …
the field of catalysis. We studied iridium single atoms (Ir1) supported on a Fe3O4 (001) …
Chemistry of the Interaction and Retention of TcVII and TcIV Species at the Fe3O4(001) Surface
E Bianchetti, AF Oliveira, AC Scheinost… - The Journal of …, 2023 - ACS Publications
The pertechnetate ion TcVIIO4–is a nuclear fission product whose major issue is the high
mobility in the environment. Experimentally, it is well known that Fe3O4 can reduce TcVIIO4 …
mobility in the environment. Experimentally, it is well known that Fe3O4 can reduce TcVIIO4 …
High-performance Pt0. 01Fe0. 05-g-C3N4 catalyst for photothermal catalytic CO2 reduction
W Ruizhao, Z Yunjie, H Sheng, X Mingkai… - Acta Chimica Sinica, 2021 - sioc-journal.cn
Converting CO 2 into value-added compounds via photothermal catalysis is a promising
strategy to reduce CO 2 emission and might be a sustainable alternative to traditional fossil …
strategy to reduce CO 2 emission and might be a sustainable alternative to traditional fossil …
Adsorption of oleic acid on magnetite facets
M Creutzburg, M Konuk, S Tober, S Chung… - Communications …, 2022 - nature.com
The microscopic understanding of the atomic structure and interaction at carboxylic
acid/oxide interfaces is an important step towards tailoring the mechanical properties of …
acid/oxide interfaces is an important step towards tailoring the mechanical properties of …
Pt0. 01Fe0. 05-g-C3N4 催化剂高效光热催化二氧化碳还原
王瑞兆, 邹云杰, 洪晟, 徐铭楷, 凌岚 - 化学学报, 2021 - sioc-journal.cn
摘要光热催化是一种高效利用太阳光, 将二氧化碳转化为高价值产物的方法.
本工作以石墨相氮化碳为载体, 通过水热-浸渍两步法制备了负载铂, 铁氧化物的石墨相氮化碳 …
本工作以石墨相氮化碳为载体, 通过水热-浸渍两步法制备了负载铂, 铁氧化物的石墨相氮化碳 …