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The physics of solar cells : perovskites, organics, and photovoltaic fundamentals
\"Energy devices with solar cells and batteries are crucial in the drive to obtain a carbon-free energy economy. Funding and commercial applications are focused on developing new materials and devices that perform required energy conversion and storage processes with high efficiency, adequate capabilities, and low production costs. This book provides an accessible summary and introduction of the main physicochemical principles that govern solar cells, perovskites, and organic materials. Recent rapid advances in the science and technology of solar cells with the discovery of perovskite solar cells and their development to a highly efficient semiconductor solar cell are highlighted\"-- Provided by publisher.
Book
Mesenchymal and haematopoietic stem cells form a unique bone marrow niche
The cellular constituents forming the haematopoietic stem cell (HSC) niche in the bone marrow are unclear, with studies implicating osteoblasts, endothelial and perivascular cells. Here we demonstrate that mesenchymal stem cells (MSCs), identified using nestin expression, constitute an essential HSC niche component. Nestin(+) MSCs contain all the bone-marrow colony-forming-unit fibroblastic activity and can be propagated as non-adherent 'mesenspheres' that can self-renew and expand in serial transplantations. Nestin(+) MSCs are spatially associated with HSCs and adrenergic nerve fibres, and highly express HSC maintenance genes. These genes, and others triggering osteoblastic differentiation, are selectively downregulated during enforced HSC mobilization or beta3 adrenoreceptor activation. Whereas parathormone administration doubles the number of bone marrow nestin(+) cells and favours their osteoblastic differentiation, in vivo nestin(+) cell depletion rapidly reduces HSC content in the bone marrow. Purified HSCs home near nestin(+) MSCs in the bone marrow of lethally irradiated mice, whereas in vivo nestin(+) cell depletion significantly reduces bone marrow homing of haematopoietic progenitors. These results uncover an unprecedented partnership between two distinct somatic stem-cell types and are indicative of a unique niche in the bone marrow made of heterotypic stem-cell pairs.
Journal Article
Perovskite solar cells : technology and practices
\"Key features: Provides an update on a hot trending topic of renewable energy and energy conversion technologies ; Introduces emerging materials processing methods of PSCs ; Covers electron-transporting layers in PSCs, hole-transporting layers in PSCs, and lead-free PSCs ; Includes easy-to-understand diagrams and configurations ; Serves as a quick guide on PSCs for young researchers\"-- Provided by publisher.
Book
Adipose Tissue‐Derived Multipotent Stromal Cells Have a Higher Immunomodulatory Capacity Than Their Bone Marrow‐Derived Counterparts
Adipose tissue‐derived multipotent stromal cells (AT‐MSCs) are studied as an alternative to bone marrow‐derived multipotent stromal cells (BM‐MSCs) for immunomodulatory treatment. In this study, we systematically compared the immunomodulatory capacities of BM‐MSCs and AT‐MSCs derived from age‐matched donors. We found that BM‐MSCs and AT‐MSCs share a similar immunophenotype and capacity for in vitro multilineage differentiation. BM‐MSCs and AT‐MSCs showed comparable immunomodulatory effects as they were both able to suppress proliferation of stimulated peripheral blood mononuclear cells and to inhibit differentiation of monocyte‐derived immature dendritic cells. However, at equal cell numbers, the AT‐MSCs showed more potent immunomodulatory effects in both assays as compared with BM‐MSCs. Moreover, AT‐MSCs showed a higher level of secretion of cytokines that have been implicated in the immunomodulatory modes of action of multipotent stromal cells, such as interleukin‐6 and transforming growth factor‐β1. This is correlated with higher metabolic activity of AT‐MSCs compared with BM‐MSCs. We conclude that the immunomodulatory capacities of BM‐MSCs and AT‐MSCs are similar, but that differences in cytokine secretion cause AT‐MSCs to have more potent immunomodulatory effects than BM‐MSCs. Therefore, lower numbers of AT‐MSCs evoke the same level of immunomodulation. These data indicate that AT‐MSCs can be considered as a good alternative to BM‐MSCs for immunomodulatory therapy.
This study systematically compared the immunomodulatory capacities of adipose tissue‐derived multipotent stromal cells (AT‐MSCs) and bone marrow‐derived multipotent stromal cells (BM‐MSCs) derived from age‐matched donors. It was found that BM‐MSCs and AT‐MSCs show functionally similar immunomodulatory effects, but with a different dose‐response curve, in favor of AT‐MSCs. AT‐MSCs can be considered as a good alternative to BM‐MSCs for immunomodulatory therapy.
Journal Article
Photovoltaic science and technology
\"Discusses the principles of operation of photovoltaic devices, their limitations, choice of materials and maximum efficiencies\"-- Provided by publisher.
Book
Membrane-bound IL-21 promotes sustained ex vivo proliferation of human natural killer cells
NK cells have therapeutic potential for a wide variety of human malignancies. However, because NK cells expand poorly in vitro, have limited life spans in vivo, and represent a small fraction of peripheral white blood cells, obtaining sufficient cell numbers is the major obstacle for NK-cell immunotherapy. Genetically-engineered artificial antigen-presenting cells (aAPCs) expressing membrane-bound IL-15 (mbIL15) have been used to propagate clinical-grade NK cells for human trials of adoptive immunotherapy, but ex vivo proliferation has been limited by telomere shortening. We developed K562-based aAPCs with membrane-bound IL-21 (mbIL21) and assessed their ability to support human NK-cell proliferation. In contrast to mbIL15, mbIL21-expressing aAPCs promoted log-phase NK cell expansion without evidence of senescence for up to 6 weeks of culture. By day 21, parallel expansion of NK cells from 22 donors demonstrated a mean 47,967-fold expansion (median 31,747) when co-cultured with aAPCs expressing mbIL21 compared to 825-fold expansion (median 325) with mbIL15. Despite the significant increase in proliferation, mbIL21-expanded NK cells also showed a significant increase in telomere length compared to freshly obtained NK cells, suggesting a possible mechanism for their sustained proliferation. NK cells expanded with mbIL21 were similar in phenotype and cytotoxicity to those expanded with mbIL15, with retained donor KIR repertoires and high expression of NCRs, CD16, and NKG2D, but had superior cytokine secretion. The mbIL21-expanded NK cells showed increased transcription of the activating receptor CD160, but otherwise had remarkably similar mRNA expression profiles of the 96 genes assessed. mbIL21-expanded NK cells had significant cytotoxicity against all tumor cell lines tested, retained responsiveness to inhibitory KIR ligands, and demonstrated enhanced killing via antibody-dependent cell cytotoxicity. Thus, aAPCs expressing mbIL21 promote improved proliferation of human NK cells with longer telomeres and less senescence, supporting their clinical use in propagating NK cells for adoptive immunotherapy.
Journal Article
Substrate Elasticity Regulates Skeletal Muscle Stem Cell Self-Renewal in Culture
Stem cells that naturally reside in adult tissues, such as muscle stem cells (MuSCs), exhibit robust regenerative capacity in vivo that is rapidly lost in culture. Using a bioengineered substrate to recapitulate key biophysical and biochemical niche features in conjunction with a highly automated single-cell tracking algorithm, we show that substrate elasticity is a potent regulator of MuSC fate in culture. Unlike MuSCs on rigid plastic dishes (approximately 10⁶ kilopascals), MuSCs cultured on soft hydrogel substrates that mimic the elasticity of muscle (12 kilopascals) self-renew in vitro and contribute extensively to muscle regeneration when subsequently transplanted into mice and assayed histologically and quantitatively by noninvasive bioluminescence imaging. Our studies provide novel evidence that by recapitulating physiological tissue rigidity, propagation of adult muscle stem cells is possible, enabling future cell-based therapies for muscle-wasting diseases.
Journal Article
Stem cells for dummies
A balanced, plain-English guide to the politically charged topic of stem cell research.
Book
A Lineage of Myeloid Cells Independent of Myb and Hematopoietic Stem Cells
Macrophages and dendritic cells (DCs) are key components of cellular immunity and are thought to originate and renew from hematopoietic stem cells (HSCs). However, some macrophages develop in the embryo before the appearance of definitive HSCs. We thus reinvestigated macrophage development. We found that the transcription factor Myb was required for development of HSCs and all CD11b high monocytes and macrophages, but was dispensable for yolk sac (YS) macrophages and for the development of YS-derived F4/80 bright macrophages in several tissues, such as liver Kupffer cells, epidermal Langerhans cells, and microglia— cell populations that all can persist in adult mice independently of HSCs. These results define a lineage of tissue macrophages that derive from the YS and are genetically distinct from HSC progeny.
Journal Article