Fact Snapshot
- Paper: Ferrocenedicarboxylate modified Bi-MOF for water decontamination via different advanced oxidation processes: Multifunction, mechanisms and biotoxicity test
- Equipment: XH-100A
- Source: Chemical Engineering Journal, 2024
- Research direction: MOF
- Core conditions: Temperature 150 °C and Power 750 W
- Key results: Removal 100 % and Utilization rate 52.5 %
Research Abstract
Ferrocenedicarboxylate modified Bi-MOF for water decontamination via different advanced oxidation processes: Multifunction, mechanisms and biotoxicity test was published in Chemical Engineering Journal (2024) and is indexed as a Xianghu Q1 application case for XH-100A. The source record connects it with MOF. Core operating conditions include Temperature 150 °C and Power 750 W. Key reported results include Removal 100 % and Utilization rate 52.5 %.
Research Background and Problem
Equipment Use and Experimental Conditions
| Item | Parameter |
|---|---|
| Temperature | 150 °C |
| Power | 750 W |
Key Result
| Metric | Result |
|---|---|
| Removal | 100 % |
| Utilization rate | 52.5 % |
Evidence Details
Microwave-method evidence: source values include 60.0 mL, 150 °C, 750 W, 40.0 min. Entities: XH-100B, Bi-BDC.
The k values of Bi-BDC-Fc0.1 in different oxidant systems followed the order of H2O2 system (0.1703 min−1) < PDS system (0.2448 min−1) < PMS system (0.2867 min−1), while t1/2 followed the opposite sequence.
Bi-BDC-Fc0.1 showed the best photocatalytic performance, which accomplished 100 % BPA degradation within 25.0 min in PMS, PDS and H2O2 systems.
Additional source evidence: source values include 52.5 %, 80.3 %, 39.1 %. Entities: Bi-BDC-Fc0.
Release-kinetics evidence: source values include 25 min, 100 %. Entities: Bi-BDC-Fc0.
Additional source evidence: source values include 20.0 min, 100 %. Entities: Bi-BDC-Fc0.
Mechanism / Method Highlights
- Method context: Temperature 150 °C and Power 750 W.
- Microwave-method evidence: source values include 60.0 mL, 150 °C, 750 W, 40.0 min. Entities: XH-100B, Bi-BDC
- Source evidence: The k values of Bi-BDC-Fc0.1 in different oxidant systems followed the order of H2O2 system (0.1703 min−1) < PDS system (0.2448 min−1) < PMS system (0.2867 min−1), while t1/2 followed the opposite sequence
- Source evidence: Bi-BDC-Fc0.1 showed the best photocatalytic performance, which accomplished 100 % BPA degradation within 25.0 min in PMS, PDS and H2O2 systems
- Reported outcome: Removal 100 % and Utilization rate 52.5 %.
Application Value
- Provides a peer-reviewed SoarNova / Xianghu Q1 application case for XH-100A.
- Supports English discovery around MOF.
- Preserves quantitative result evidence: Removal 100 % and Utilization rate 52.5 %.
- Maintains source-level evidence details: Microwave-method evidence: source values include 60.0 mL, 150 °C, 750 W, 40.0 min. Entities: XH-100B, Bi-BDC, Source evidence: The k values of Bi-BDC-Fc0.1 in different oxidant systems followed the order of H2O2 system (0.1703 min−1) < PDS system (0.2448 min−1) < PMS system (0.2867 min−1), while t1/2 followed the opposite sequence, Source evidence: Bi-BDC-Fc0.1 showed the best photocatalytic performance, which accomplished 100 % BPA degradation within 25.0 min in PMS, PDS and H2O2 systems, and Additional source evidence: source values include 52.5 %, 80.3 %, 39.1 %. Entities: Bi-BDC-Fc0.
Related Equipment
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Ferrocenedicarboxylate modified Bi-MOF for water decontamination via different advanced oxidation processes: Multifunction, mechanisms and biotoxicity test
Chemical Engineering Journal, 2024
DOI: 10.1016/j.cej.2024.153651
