Experimental data details the performance of a synthesized heteroleptic ruthenium complex catalyst immobilized on graphene oxide. The catalyst achieved a methanol production yield of 2050 μmol g−1 cat over 24 hours of visible light irradiation without a sacrificial agent. The dataset was authored by Pawan Kumar and shared under an Open Access license.
Use Cases
- Analyze the relationship between catalyst synthesis method and the final methanol production yield.
- Model photocatalytic efficiency using features like irradiation time and the absence of a sacrificial agent.
- Compare the performance of this graphene oxide-supported ruthenium complex against other catalytic materials.
Strengths
- Reports a concrete methanol yield of 2050 μmol g−1 cat from a 24-hour experiment.
- Describes a specific and novel catalyst synthesis method using microwave technique and covalent attachment.
- Focuses on a defined chemical process: visible-light-driven CO2 reduction without sacrificial agents.
Limitations
- The dataset scope is limited to the performance of a single, specific catalyst formulation.
- Lacks explicit column definitions or sample data, limiting immediate analytical utility.
- No information on dataset size, row count, or replication of experiments is provided.
Provenance
- Source
- paperswithcode
- Collection Method
- Experimental data from laboratory synthesis and testing of a photocatalyst.
- Time Range
- null
- Freshness
- null
- Geography
- null