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Keratinocytes have various functions to maintain epidermal homeostasis. Many inflammatory skin diseases can develop due to suppressed or defective anti-inflammatory properties of keratinocytes. This book discusses the structural, biological, and molecular aspects of keratinocytes. Chapters discuss keratins and attachment molecules and their importance in maintaining epidermal homeostasis, skin diseases such as psoriasis and atopic dermatitis, and aging and skin regeneration.
Keratinocytes. --- Cells
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The cardiac function relies on an intricate molecular and cellular three-dimensional (3d) architecture of a complex, dense and co-dependent cellular network. Structural alterations of the cardiac structure can affect its essential function and lead to severe dysfunction of the organ. Cardiovascular diseases are the main cause of death worldwide with a rising incidence.However, it is not possible to give a generalized answer how the heart is formed. Up to now, cardiac structure as well as physiologic and disease-related tissue alterations of the tissue are mainly investigated by established 2d imaging methods such as optical microscopy or electron microscopy.This work presents a multiscale and multimodal X-ray imaging approach, which allows to probe the heart structure from the scale of entire intact murine hearts to the molecular organisation of the sarcomer structure.While the molecular structure of the actomyosin complex is probed by scanning X-ray diffraction,the 3d arrangement of the cellular network is investigated by propagation-based X-ray phase-contrast tomography. In this context, the concept of 3d virtual histology of cardiac tissue by X-ray phase-contrast tomography using laboratory sources as well as highly coherent synchrotron radiation is being further developed.
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The cardiac function relies on an intricate molecular and cellular three-dimensional (3d) architecture of a complex, dense and co-dependent cellular network. Structural alterations of the cardiac structure can affect its essential function and lead to severe dysfunction of the organ. Cardiovascular diseases are the main cause of death worldwide with a rising incidence.However, it is not possible to give a generalized answer how the heart is formed. Up to now, cardiac structure as well as physiologic and disease-related tissue alterations of the tissue are mainly investigated by established 2d imaging methods such as optical microscopy or electron microscopy.This work presents a multiscale and multimodal X-ray imaging approach, which allows to probe the heart structure from the scale of entire intact murine hearts to the molecular organisation of the sarcomer structure.While the molecular structure of the actomyosin complex is probed by scanning X-ray diffraction,the 3d arrangement of the cellular network is investigated by propagation-based X-ray phase-contrast tomography. In this context, the concept of 3d virtual histology of cardiac tissue by X-ray phase-contrast tomography using laboratory sources as well as highly coherent synchrotron radiation is being further developed.
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"Perovskite-Based Solar Cells: From Fundamentals to Tandem Devices" gives fundamental understanding of perovskite solar cells from the chemical composition of each thin layer composing the different stacks to the whole device. Special attention has been given to the development of the materials forming the perovskite solar cell and their effect on the device performance, in addition to the recent progress of this emerging technology. Moreover, light has been shed on the perovskite elaboration techniques, in addition to the several techniques proposed to improve both the efficiency and the stability of perovskite solar cells. Furthermore, special emphasis was given to the three types of tandem solar cells and their recent advances starting from Perovskite/perovskite tandem solar cells to Perovskite/ CIGS tandem cells to perovskite/ heterojunction silicon tandem solar cells. The latter constitute a promising solution to improve photovoltaic solar cells performance.
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Dye-sensitized solar cells. --- DSSCs (Dye-sensitized solar cells) --- Dye solar cells --- Graetzel cells --- Solar cells
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Current Progress in iPSC Disease Modeling, Volume Fourteen in the Advances in Stem Cell Biology series, is a timely and expansive collection of information and new discoveries in the field. This new volume addresses advances in research on how induced pluripotent stem cells are used for the creation of new tissues and organs. The creation of iPSC technology allowed the development of disease-specific human pluripotent stem cells. These cells allow researchers to study questions once impossible for some human diseases. This volume addresses iPSCs for vascular tissue engineering, bioprinting, derived lung organoids for pulmonary disorders, skeletal muscle engineering, human kidney organoids, and more. It is written for researchers and scientists in stem cell therapy, cell biology, regenerative medicine and organ transplantation, and is contributed by world-renowned authors in the field
Stem cells. --- Cells --- Colony-forming units (Cells) --- Mother cells --- Progenitor cells
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Stem cells. --- Colony-forming units (Cells) --- Mother cells --- Progenitor cells --- Cells
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Stem cells. --- Colony-forming units (Cells) --- Mother cells --- Progenitor cells --- Cells
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