Mercury Porosimetry

Rigby, Sean P.

doi:10.1007/978-3-030-47418-8_3

Structural Characterisation of Natural and Industrial Porous Materials: A Manual 2020

DOI: 10.1007/978-3-030-47418-8_3

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Mercury Porosimetry

Sean P. Rigby

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2024

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Cited by 1 publication

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PoreVision: A Program for Enhancing Efficiency and Accuracy in SEM Pore Analyses

Olevsky,

Jacques,

Hixon

2024

Preprint

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Porous bulk materials are frequently utilized as cell scaffolds in tissue engineering. Previous studies have highlighted the significance of scaffold pore size and pore orientation in influencing cell migration and differentiation. Moreover, there exists a considerable body of research focused on optimizing pore characteristics to enhance scaffold performance. However, current methods for numerical pore characterization typically involve expensive machines or manual size measurements using image manipulation software. In this project, our objective is to develop a user-friendly, versatile, and freely accessible software tool using Python scripting. This tool aims to streamline and objectify pore characterization, thereby accelerating research efforts and providing a standardized framework for researchers working with porous materials. By facilitating quantitative analysis of pore size, shape, and orientation, our software tool will contribute to a more comprehensive understanding of scaffold properties and their impact on cellular behavior. Ultimately, we aim to aid researchers in the field of tissue engineering with a user-friendly tool that enhances the reproducibility and reliability of pore characterization analyses

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PoreVision: A Program for Enhancing Efficiency and Accuracy in SEM Pore Analyses

Olevsky,

Jacques,

Hixon

2024

Preprint

View full text Add to dashboard Cite

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Mercury Porosimetry

Cited by 1 publication

References 28 publications

PoreVision: A Program for Enhancing Efficiency and Accuracy in SEM Pore Analyses

PoreVision: A Program for Enhancing Efficiency and Accuracy in SEM Pore Analyses

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