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A Closed Recovery Cycle of Reduction of CO2 to CO as a Fuel in the Presence of new Photocatalyst for Energy Saving and Decreasing of Air Pollution, Iran National Science Foundation (INSF), Project No. 90006991, 2013
CO2
The upper panel shows microscopic photographs of the MCF-7 cancer cells in the absence (C) and presence of different concentrations of the Ni(II) complex (indicated by the number inside each photo).
The schematic representation of HOMOs of the species in the proposed mechanism for the electrocatalytic reduction of CO2 by the Ru(II) complex.
The schematic representation of LUMOs of the species in the proposed mechanism for electrocatalytic reduction of CO2 by the Ru(II) complex.
Schematic representation of the calculated molecular-orbitals in CO22– (bent geometry) with their energy levels (eV).
Treatment of K562 cells with the various oxicam complexes and the oxicam ligands showed different inhibition effects in a concentration dependent manner. The cell inhibition was measured after 48 h by the MTT assay.
Treatment of K562 cells with the various metal salts showed different inhibition effects in a concentration dependent manner. The cell inhibition was measured after 48 h by the MTT assay. Each data point represents the mean for three separate experiments
A proposed photocatalytic cycle for the reduction of CO2 to CO
The optimized structures of free CO2 and Int6 in the gas phase. The bond lengths are in angstroms
Relative energy level diagram for the electronic transition (absorption) of the [Cu(tptz)(dppz)]2+ complex upon binding with CT-DNA
Biography 42
Effect of salinity on cucumber plants grafted on different rootstock
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