Jonas Palle scite author profile

Carbon dioxide is a desired feedstock for platform molecules, such as carbon monoxide or higher hydrocarbons, from which we will be able to make many different useful, value-added chemicals. Its catalytic hydrogenation over abundant metals requires the amalgamation of theoretical knowledge with materials design. Here we leverage a theoretical understanding of structure sensitivity, along with a library of different supports, to tune the selectivity of methanation in the Power-to-Gas concept over nickel. For example, we show that carbon dioxide hydrogenation over nickel can and does form propane, and that activity and selectivity can be tuned by supporting different nickel particle sizes on various oxides. This theoretical and experimental toolbox is not only useful for the highly selective production of methane, but also provides new insights for carbon dioxide activation and subsequent carbon–carbon coupling towards value-added products thereby reducing the deleterious effects of this environmentally harmful molecule.

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Bone Biomineral Properties Vary across Human Osteonal Bone

Wittig

Palle

Østergaard

et al. 2019

ACS Nano

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The biomineralization of bone remains a puzzle. During Haversian remodeling in the dense human cortical bone, osteoclasts excavate a tunnel that is then filled in by osteoblasts with layers of bone of varying fibril orientations, resulting in a lamellar motif. Such bone represents an excellent possibility to increase our understanding of bone as a material as well as bone biomineralization by studying spatio/temporal variations in the biomineral across an osteon. To this end, fluorescence computed tomography and diffraction scattering computed tomography with sub-micrometer resolution is applied to obtain position resolved fluorescence spectra and diffraction patterns in a 3D volume. The microstructural properties of the apatite biomineral are not homogeneous but depends critically on the time point at which it was laid down. This indicates that the nature of bone biomineral is highly dependent on the microenvironment during bone formation and remodeling.

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Nanobeam X-ray fluorescence and diffraction computed tomography on human bone with a resolution better than 120 nm

Palle

Wittig

Kubec

et al. 2020

Journal of Structural Biology

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Opportunities for biomineralization research using multiscale computed X-ray tomography as exemplified by bone imaging

Wittig

Østergaard

Palle

et al. 2022

Journal of Structural Biology

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Bone mineral properties and 3D orientation of human lamellar bone around cement lines and the Haversian system

Grünewald¹,

Johannes²,

Wittig³

et al. 2023

IUCrJ

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Bone is a complex, biological tissue made up primarily of collagen fibrils and biomineral nanoparticles. The importance of hierarchical organization in bone was realized early on, but the actual interplay between structural features and the properties on the nanostructural and crystallographic level is still a matter of intense discussion. Bone is the only mineralized tissue that can be remodeled and, at the start of the formation of new bone during this process, a structure called a cement line is formed on which regular bone grows. Here, the orientational relationship of nanostructural and crystallographic constituents as well as the structural properties of both nanostructural and crystallographic constituents around cement lines and the Haversian system in human lamellar bone are investigated. A combination of small- and wide-angle X-ray scattering tensor tomography is employed together with diffraction tomography and synchrotron computed tomography to generate a multi-modal image of the sample. This work shows that the mineral properties vary as a function of the distance to the Haversian canal and, importantly, shows that the cement line has differing mineral properties from the surrounding lamellar bone, in particular with respect to crystallite size and degree of orientation. Cement lines make up a significant portion of the bone matrix despite their small size, hence the reported findings on an altered mineral structure, together with the spatial modulation around the Haversian canal, have implications for the formation and mechanics of bone.

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Jonas Palle

Understanding carbon dioxide activation and carbon–carbon coupling over nickel

Bone Biomineral Properties Vary across Human Osteonal Bone

Nanobeam X-ray fluorescence and diffraction computed tomography on human bone with a resolution better than 120 nm

Opportunities for biomineralization research using multiscale computed X-ray tomography as exemplified by bone imaging

Bone mineral properties and 3D orientation of human lamellar bone around cement lines and the Haversian system

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