Pore volume distribution of different pore sizes in each lithology. by Dong Feng (5375471)

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Morphological Degradation of Oxygen Evolution Reaction-Electrocatalyzing Nickel Selenides at Industrially Relevant Current Densities by Felix Hiege (21700895)

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Rock physical parameters of the samples. by Dong Feng (5375471)

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XRD of unweathered and weathered sandstones. by Dong Feng (5375471)

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Morphological Degradation of Oxygen Evolution Reaction-Electrocatalyzing Nickel Selenides at Industrially Relevant Current Densities by Felix Hiege (21700895)

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Total porosity versus permeability of the rocks of different lithologies in the study area. by Dong Feng (5375471)

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Changes in mineral composition of unweathered and weathered sandstones. by Dong Feng (5375471)

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Porosity and permeability of different types of rocks. by Dong Feng (5375471)

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Fitted curves of D_T and the percentages of different sizes of pores in unweathered sandstones and weathered sandstones. by Dong Feng (5375471)

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Data. by Dong Feng (5375471)

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Fractal dimensions of different rock samples. by Dong Feng (5375471)

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Fitted curves of D_T and the total porosity of rocks of different lithologies. by Dong Feng (5375471)

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Fractal dimensions of different sandstones. by Dong Feng (5375471)

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Classification of rock pores and methods of study. by Dong Feng (5375471)

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Position of each slice of anthracite. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

Minimal data set. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

Schematic of the experiment apparatus. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

Physicochemical properties of CO₂, CH₄ and N₂. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

Number of finishers by age group for women and men with the overall race times for each age group (HH:MM:SS). by Beat Knechtle (5504402)

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The performance difference between the sexes (in percent) across age groups for split disciplines and overall race times. by Beat Knechtle (5504402)

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