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Showing below up to 50 results in range #101 to #150.
- photocatalytic CO2 conversion under different conditions (17:26, 17 January 2025)
- Results for different electron donors and proton donors (17:26, 17 January 2025)
- An earth-abundant system for light-driven CO2 reduction to CO using a pyridinophane iron catalyst (17:02, 10 February 2025)
- table 1 (11:01, 11 February 2025)
- experiments (11:18, 11 February 2025)
- A molecular noble metal-free system for efficient visible light-driven reduction of CO2 to CO (11:22, 11 February 2025)
- In App Browser for Easy Video Discovery in Snaptube (20:37, 27 February 2025)
- Best result and control experiments (17:16, 28 February 2025)
- Photocatalytic reduction of CO2: conditions optimization (16:49, 7 March 2025)
- Table 1 (16:25, 10 March 2025)
- Table 2 CO gas (16:26, 10 March 2025)
- Exchange Coupling Determines Metal-Dependent Efficiency for Iron- and Cobalt-Catalyzed Photochemical CO2 Reduction (17:02, 10 March 2025)
- Photocatalytic reduction of CO2 with different photosensitizers (17:17, 10 March 2025)
- Photocatalytic CO2 reduction with varying concentrations of cat and PS (17:21, 10 March 2025)
- Control experiments (17:37, 10 March 2025)
- Photocatalytic CO2 reduction: best results (17:42, 10 March 2025)
- Water-Assisted Highly Efficient Photocatalytic Reduction of CO2 to CO with Noble Metal-Free Bis(terpyridine)iron(II) Complexes and an Organic Photosensitizer (10:22, 11 March 2025)
- photocatalytic CO2 conversion (10:31, 11 March 2025)
- photocatalytic reduction of CO2 to CO (11:00, 11 March 2025)
- Table 1 (11:55, 11 March 2025)
- Visible-Light-Driven Photocatalytic CO2 Reduction by a Ni(II) Complex Bearing a Bioinspired Tetradentate Ligand for Selective CO Production (11:55, 11 March 2025)
- Optimization of CO2 reduction conditions (13:38, 11 March 2025)
- CO2 reduction experiments testing different catalysts (13:41, 11 March 2025)
- Control experiments (13:58, 11 March 2025)
- Photocatalytic reduction of CO2, best TON (14:02, 11 March 2025)
- Table 1 (18:07, 13 March 2025)
- Optimizations of the conditions (18:18, 13 March 2025)
- Exploring the Full Potential of Photocatalytic Carbon Dioxide Reduction Using a Dinuclear Re2Cl2 Complex Assisted by Various Photosensitizers (18:21, 13 March 2025)
- Results for photocatalytic reduction of CO2 (18:27, 13 March 2025)
- Durability test (18:30, 13 March 2025)
- Photocatalytic CO2 reduction using a Mn complex as a catalyst (18:31, 13 March 2025)
- Highly Efficient and Robust Photocatalytic Systems for CO2 Reduction Consisting of a Cu(I) Photosensitizer and Mn(I) Catalysts (18:31, 13 March 2025)
- photocatalytic conversion of CO2 to CO (18:45, 13 March 2025)
- Ufabet Online Casino A Complete Betting Experience (05:54, 14 March 2025)
- Table 1 (16:31, 14 March 2025)
- Visible light driven reduction of CO2 catalyzed by an abundant manganese catalyst with zinc porphyrin photosensitizer (16:35, 14 March 2025)
- Table 1 (16:40, 14 March 2025)
- Photochemical Reduction of Carbon Dioxide to Formic Acid using Ruthenium(II)-Based Catalysts and Visible Light (17:26, 14 March 2025)
- Table 2 (17:36, 14 March 2025)
- Rhenium(I) trinuclear rings as highly efficient redox photosensitizers for photocatalytic CO2 reduction (17:36, 14 March 2025)
- Table 1 (17:38, 14 March 2025)
- Table 1 (17:43, 14 March 2025)
- Photocatalytic CO2 reduction with the Mn complexes under various conditions. (19:03, 15 March 2025)
- Mn-carbonyl molecular catalysts containing a redox-active phenanthroline-5,6-dione for selective electro- and photoreduction of CO2 to CO or HCOOH (19:03, 15 March 2025)
- Control experiments (19:07, 15 March 2025)
- Function-Integrated Ru Catalyst for Photochemical CO2 Reduction (19:07, 15 March 2025)
- Concentration and solvent effect (19:12, 15 March 2025)
- Hg poisoning (19:13, 15 March 2025)
- Presence of water effect (19:14, 15 March 2025)
- Maximum TON (19:14, 15 March 2025)
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