The present invention relates to catalysts or catalytic systems comprising liquid metals, and in particular, to catalysts or catalytic systems comprising liquid metals droplets dispersed in a solvent, as well as to methods and uses of such catalysts or catalytic systems. In some embodiments, the present disclosure provides a ‘green’ carbon capture and conversion technology offering scalability and economic viability for mitigating CO.sub.2 emissions.

The present invention generally relates to various polycyclic aromatic selenoxide compounds, methods for preparing these compounds, and methods of us these and other compounds to generate ground state atomic oxygen.

Metal oxide particles having: (1) a volume ratio (a) in 0.7 μm band of 5 to 40 vol %, (2) a volume ratio (b) in 13 μm band of 20 to 45 vol %, (3) a volume ratio (c) in 1.3 μm band of 20 to 50 vol %, and (4) a sum of the volume ratios (a), (b), and (c) of 60 to 100 vol %. The 0.7 μm, 13 μm, and 1.3 μm bands are particle size distributions having peaks at 0.3 to 1.2 μm, 0.3 to 20 μm, and 0.7 to 3 μm, respectively. The volume ratios (a), (b), and (c) of each band have peaks near 0.7 μm, 1.3 μm, and 13 μm in a particle size distribution curve, and being obtained by calculating an abundance ratio of particles in each band from a numerical integration of distribution curves obtained by further dividing the particle size distribution curve into three bands.

The invention relates to a method for separating gases which comprises: a first step in which a gas fuel stream comprising combustible substances that produce gas products when oxidised, and an oxygen-rich inlet stream are passed through at least two modules of oxygen-separating ceramic membranes, such that the two streams come into contact through the membranes and exchange heat; a second step of selective diffusion of oxygen from the oxygen-rich stream to the fuel stream, such that the outlet streams from the membrane modules are an oxygen-depleted or completely oxygen-free stream and a partially or completely oxidised stream; and a third step of recovery of at least two separate outlet streams of at least two gases selected from oxygen, nitrogen, carbon dioxide and hydrogen.

The present invention generally relates to various polycyclic aromatic selenoxide compounds, methods for preparing these compounds, and methods of us these and other compounds to generate ground state atomic oxygen.

The invention relates to a method for separating gases which comprises: a first step in which a gas fuel stream comprising combustible substances that produce gas products when oxidised, and an oxygen-rich inlet stream are passed through at least two modules of oxygen-separating ceramic membranes, such that the two streams come into contact through the membranes and exchange heat; a second step of selective diffusion of oxygen from the oxygen-rich stream to the fuel stream, such that the outlet streams from the membrane modules are an oxygen-depleted or completely oxygen-free stream and a partially or completely oxidised stream; and a third step of recovery of at least two separate outlet streams of at least two gases selected from oxygen, nitrogen, carbon dioxide and hydrogen.

A method for generating singlet oxygen, the method including a step of generating singlet oxygen by irradiating a phthalocyanine compound crystal with electromagnetic radiation, wherein in an X-ray diffraction pattern of the phthalocyanine compound crystal obtained by X-ray diffraction measurement using CuK rays, a peak is present within a diffraction angle 2 range of 5 to 35, and a full width at half maximum of a peak with highest intensity within the range is not more than 2.50.