Relevant bibliographies by topics / Ultimate Cell

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Ultimate Cell'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 February 2022

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Journal articles on the topic "Ultimate Cell"

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Frantz, Simon. "The ultimate stem cell...part 1." Nature Reviews Molecular Cell Biology 3, no. 3 (March 2002): 148. http://dx.doi.org/10.1038/nrm752.

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Frantz, Simon. "The ultimate stem cell...part 2." Nature Reviews Molecular Cell Biology 3, no. 3 (March 2002): 148. http://dx.doi.org/10.1038/nrm754.

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VINEY, J. L. "Dendritic cell subsets: the ultimate T cell differentiation decision makers?" Gut 45, no. 5 (November 1, 1999): 640–41. http://dx.doi.org/10.1136/gut.45.5.640.

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Gattinoni, Luca, Christopher A. Klebanoff, and Nicholas P. Restifo. "Paths to stemness: building the ultimate antitumour T cell." Nature Reviews Cancer 12, no. 10 (September 21, 2012): 671–84. http://dx.doi.org/10.1038/nrc3322.

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Piedrahita, J. A. "Somatic Cell Cloning: The Ultimate Form of Nuclear Reprogramming?" Journal of the American Society of Nephrology 15, no. 5 (May 1, 2004): 1140–44. http://dx.doi.org/10.1097/01.asn.0000110183.87476.05.

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Hagios, Carmen, André Lochter, and Mina J. Bissell. "Tissue architecture: the ultimate regulator of epithelial function?" Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 353, no. 1370 (June 29, 1998): 857–70. http://dx.doi.org/10.1098/rstb.1998.0250.

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The architecture of a tissue is defined by the nature and the integrity of its cellular and extracellular compartments, and is based on proper adhesive cell–cell and cell–extracellular matrix interactions. Cadherins and integrins are major adhesion–mediators that assemble epithelial cells together laterally and attach them basally to a subepithelial basement membrane, respectively. Because cell adhesion complexes are linked to the cytoskeleton and to the cellular signalling pathways, they represent checkpoints for regulation of cell shape and gene expression and thus are instructive for cell behaviour and function. This organization allows a reciprocal flow of mechanical and biochemical information between the cell and its microenvironment, and necessitates that cells actively maintain a state of homeostasis within a given tissue context. The loss of the ability of tumour cells to establish correct adhesive interactions with their microenvironment results in disruption of tissue architecture with often fatal consequences for the host organism. This review discusses the role of cell adhesion in the maintenance of tissue structure and analyses how tissue structure regulates epithelial function.
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Co., Ltd., Asahi-Seiki Manufacturing. "LTP-45/Ultimate Transfer Press for Li-Ion Battery Cell." Journal of the Japan Society for Technology of Plasticity 53, no. 621 (2012): 915–16. http://dx.doi.org/10.9773/sosei.53.915.

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Jensen, Marc W., and Marc Ross. "The Ultimate Challenge: Developing an Infrastructure for Fuel Cell Vehicles." Environment: Science and Policy for Sustainable Development 42, no. 7 (September 2000): 10–22. http://dx.doi.org/10.1080/00139150009605747.

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Lee, Donghoon M., and Elizabeth H. Chen. "Drosophila Myoblast Fusion: Invasion and Resistance for the Ultimate Union." Annual Review of Genetics 53, no. 1 (December 3, 2019): 67–91. http://dx.doi.org/10.1146/annurev-genet-120116-024603.

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Cell–cell fusion is indispensable for creating life and building syncytial tissues and organs. Ever since the discovery of cell–cell fusion, how cells join together to form zygotes and multinucleated syncytia has remained a fundamental question in cell and developmental biology. In the past two decades, Drosophila myoblast fusion has been used as a powerful genetic model to unravel mechanisms underlying cell–cell fusion in vivo. Many evolutionarily conserved fusion-promoting factors have been identified and so has a surprising and conserved cellular mechanism. In this review, we revisit key findings in Drosophila myoblast fusion and highlight the critical roles of cellular invasion and resistance in driving cell membrane fusion.
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Bissell, Mina J., Aylin Rizki, and I. Saira Mian. "Tissue architecture: the ultimate regulator of breast epithelial function." Current Opinion in Cell Biology 15, no. 6 (December 2003): 753–62. http://dx.doi.org/10.1016/j.ceb.2003.10.016.

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Dissertations / Theses on the topic "Ultimate Cell"

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Tord, Hagbarth Bremnes. "Musikknotasjonens formidlingsevne : og dens påvirkning på utøverens innstudering og interpretasjon." Thesis, Karlstads universitet, Institutionen för konstnärliga studier (from 2013), 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-81596.

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Denne oppgaven utforsker forbedringspotensialet i musikknotasjonen til to samtidsmusikk komposisjoner. Oppgaven er vinklet gjennom en klassisk skolert cellist med erfaring innom samtidsmusikk. Cellisten observerer problemer som oppstår under innstuderingen og prøver å løse dem gjennom kunnskap fra design, notasjonspraktikk og perseptuell psykologi. Cellisten former en ny utgave av komposisjonene via dialog med komponistene. Til slutt drøfter cellisten hvilken forskjell endringene gjorde.
This thesis explores the possibilities of improvement in the musical notation of two pieces of contemporary music. The work is viewed through a classical trained cellist with experience in contemporary music. The cellist examines the problems encountered during rehearsal of the compositions and tries to find the root of the problems through principles of design, notation and perceptual psychology. A new version of the score is formed through dialogs between the cellist and the composers. The cellist discusses in the end whether the changes had an effect or not.
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Sadoway, Donald R. "Inert Anodes for the Hall-Heroult Cell: the Ultimate Materials Challenge." 2001. http://hdl.handle.net/1721.1/1683.

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da, Silva Agostinho Fernando Jorge. "A Intenção de Utilização da Ultimate Cell por parte de empresas transportadoras: um estudo de caso." Master's thesis, 2015. http://hdl.handle.net/10400.26/28477.

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O presente estudo de caso refere-se ao tema “A Intenção de Utilização da Ultimate Cell por parte de empresas transportadoras”, tendo como foco a análise ao nível de aceitação por parte destas entidades ao produto em questão, com base no Modelo de Aceitação Tecnológica. A tecnologia das células de hidrogénio, embora já existentes no mercado há vários anos, nunca foi explorada num patamar comercial abrangente e disseminado, nem em B2C (Business-to-Consumer), nem em B2B (Business-to-Business). Por outro lado, vivemos numa época de instabilidade económica e financeira, tanto a nível interno como internacional, e de incertezas no que toca às questões de sustentabilidade ambiental. Este estudo tem como objetivo convergir estas questões numa temática só, procurando analisar quais as características mais importantes inerentes às células de hidrogénio, e a sua aplicabilidade num mercado como o português, num setor empresarial de desgaste financeiro substancial. Adicionalmente, este estudo procurará avaliar qual o impacto deste produto no mercado ao nível do Marketing, e de que maneiras se poderá potenciá-lo, por forma a fazê-lo chegar a um maior número de clientes.
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Books on the topic "Ultimate Cell"

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Slee, Shirley. Text-tionary: The ultimate text/symbol decoder. Bloomington, IN: Authorhouse, 2010.

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Mobile web designer's idea book: The ultimate guide to trends, themes and styles in mobile web design. Cincinnati, Ohio: How Books, 2013.

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Boyle, Artie. Six months to live: Three guys on the ultimate quest for a miracle. New York: Crossroad Pub. Company, 2014.

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Cox, Michael M., Albert Lehninger, and David L. Nelson. The Cell Map for The Absolute, Ultimate Guide to Lehninger Principles of Biochemistry. W. H. Freeman, 2008.

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The Man Plan. Amazon, 2020.

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(EDT), Alfred Publishing. Ultimate Beginner Series Cello. Alfred Publishing Company, 2002.

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Read, Nick D. Fungal cell structure and organization. Edited by Christopher C. Kibbler, Richard Barton, Neil A. R. Gow, Susan Howell, Donna M. MacCallum, and Rohini J. Manuel. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198755388.003.0004.

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Human pathogenic fungi produce three basic ‘cell’ types: hyphae, yeast cells, and spores. The organization and subcellular structure of these different cell types and their modes of growth and formation are reviewed. Growth and form is the consequence of how new cell surface is formed. This is generated by the delivery of vesicles to the surface which provides new membrane and the enzymes for cell wall synthesis. To generate these various cell types, the pathway of vesicle secretion to the surface has to be carefully regulated. These vesicles have to be transported through the cell by the cytoskeleton, and in filamentous cells these vesicles accumulate at a supply centre called the Spitzenkörper before docking and fusion with the hyphal apex. Ultimately, membrane is also endocytosed and recycled behind actively expanding regions of the fungal surface. These various processes are described and particular emphasis is given to the structural and organizational features of fungal cells that play roles in their pathogenesis and virulence.
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Leonardi, Patrick. The Ultimate Study Guide For Biology: Key Review Questions and Answers with Explanations (Topics: Origin of Living Things & Chemistry of Life, Structure and Function of the Cell & Energy Pathways, Reproduction and Heredity, Genetics) Volume 1. Silver Educational Publishing, 2004.

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Sherwood, Dennis, and Paul Dalby. Thermodynamics today – and tomorrow. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198782957.003.0026.

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This last chapter explores the frontiers of how thermodynamics is currently being applied to biology, moving from the scale of the molecule to the scale of the cell. The key theme is ‘self-assembly’ – the process by which macromolecules spontaneously assemble into larger structures such as cell membranes, cell organelles, cells, and ultimately organisms. The starting point is the simplest process of self-assembly, the formation of a liquid from the condensation of a gas, which draws on some results from Chapter 15, and develops the concept of nucleation, this leads to a discussion of protein aggregation, and how virus particles are formed. The chapter, and the book, ends with a key challenge for the future: how can we deliberately design self-assembling systems that can perform valuable functions?
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Galliford, Bill, and Alfred Music Staff. Ultimate Movie Instrumental Solos for Strings: Cello, Book and CD. Alfred Publishing Company, Incorporated, 2012.

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Book chapters on the topic "Ultimate Cell"

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De Pauw, Ines, Carolien Boeckx, and An Wouters. "Mechanisms of Cetuximab Resistance and How to Overcome It." In Critical Issues in Head and Neck Oncology, 21–51. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-63234-2_3.

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AbstractDeregulated or increased signalling of the epidermal growth factor receptor (EGFR) plays an integral role in the development of various cancer types, including head and neck squamous cell carcinoma (HNSCC), making it a compelling drug target. However, after initially promising results of EGFR-targeted therapies, such as the monoclonal antibody cetuximab, it became clear that both intrinsic and acquired therapeutic resistance are major roadblocks in the field of personalised cancer treatments.In order to unravel and overcome resistance to cetuximab, at least two strategies can be adopted.Firstly, therapeutic resistance to anti-EGFR therapy may arise from mechanisms that can compensate for reduced EGFR signalling and/or mechanisms that can modulate EGFR-dependent signalling. In this chapter, we discuss which mechanisms of cetuximab resistance are already known and which ones deserve further investigation. This enhanced knowledge will guide us to rationally design and test novel combination therapies that overcome resistance to EGFR-targeting agents in cancer treatment.Secondly, an urgent need remains to develop novel targeted treatments for single-agent or combined therapy use. In this view, due to the particular mode of activation of the EGFR receptor, involving ligand-induced homo- and heterodimerization of the four HER receptors, an increased inhibition scope of HER receptors most likely results in a more potent blockade of the HER network, preventing premature emergence of resistance and leading to a more pronounced therapeutic benefit. We discuss two multitargeted compounds, being MEHD7945A (duligotuzumab) and afatinib, in this chapter.Despite the huge efforts to unravel the molecular landscape of HNSCC, the main clinically validated target remains EGFR. However, immune checkpoints, like programmed cell death protein 1 (PD-1), are gaining clinical approvals as well. We underscore the importance of adopting rational drug combinations to enhance the therapeutic effect of the EGFR-inhibitor cetuximab and highlight the ongoing search for predictive biomarkers, with the ultimate goal of delivering individualized cancer therapy to HNSCC patients.
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Vives, Joaquim, and Judit Amposta. "Risk Management." In Quality Management and Accreditation in Hematopoietic Stem Cell Transplantation and Cellular Therapy, 165–76. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-64492-5_18.

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AbstractWe live in a world of uncertainty. Moving forward in this context would be much easier if we could manage to identify, analyse, mitigate, and ultimately accept the most relevant threats, with a deep understanding of the actual significance of such risk(s). Remarkably, this strategy can be applied to any field of interest, from daily life to economics or medicine. Indeed, current quality standards in cellular therapy have already incorporated risk-based management in their guidelines. In this chapter, we present the concept of risk management as part of a quality management program and discuss by whom, why, how, and when this approach should be applied in order to benefit the production and use of safe and effective cell-based therapies in general and hematopoietic stem cell transplantation in particular.
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Watson, Geoffrey Alan, Kirsty Taylor, and Lillian L. Siu. "Innovation and Advances in Precision Medicine in Head and Neck Cancer." In Critical Issues in Head and Neck Oncology, 355–73. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-63234-2_24.

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AbstractThe clinical utility of precision medicine through molecular characterization of tumors has been demonstrated in some malignancies, especially in cases where oncogenic driver alterations are identified. Next generation sequencing data from thousands of patients with head and neck cancers have provided vast amounts of information about the genomic landscape of this disease. Thus far, only a limited number of genomic alterations have been druggable, such as NTRK gene rearrangements in salivary gland cancers (mainly mammary analogue secretory carcinoma), NOTCH mutations in adenoid cystic cancers, HRAS mutations in head and neck squamous cell cancers, and even a smaller number of these have reached regulatory approval status. In order to expand the scope of precision medicine in head and neck cancer, additional evaluation beyond genomics is necessary. For instance, there is increasing interest to perform transcriptomic profiling for target identification. Another advance is in the area of functional testing such as small interfering RNA and drug libraries on patient derived cell cultures. Liquid biopsies to detect specific tumor clones or subclones, or viral sequences such as HPV, are of great interest to enable non-invasive tracking of response or resistance to treatment. In addition, precision immuno-oncology is a tangible goal, with a growing body of knowledge on the interactions between the host immunity, the tumor and its microenvironment. Immuno-oncology combinations that are tailored to immunophenotypes of the host-tumor-microenvironment triad, personalized cancer vaccines, and adoptive cell therapies, among others, are in active development. Many therapeutic possibilities and opportunities lie ahead that ultimately will increase the reality of precision medicine in head and neck cancer.
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Cinti, Saverio. "The Nutritional System." In Perspectives in Nursing Management and Care for Older Adults, 215–24. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-63892-4_17.

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AbstractThe white and brown adipose tissues are organized to form a true organ. They have a different anatomy and perform different functions, but they collaborate thanks to their ability to convert mutually and reversibly following physiological stimuli. This implies a new fundamental property for mature cells, which would be able to reversibly reprogram their genome under physiological conditions. The subcutaneous mammary gland provides another example of their plasticity. Here fat cells are reversibly transformed into glands during pregnancy and breastfeeding. The obese adipose organ is inflamed because hypertrophic fat cells, typical of this condition, die and their cellular residues must be reabsorbed by macrophages. The molecules produced by these cells during their reabsorption work interfere with the insulin receptor, and this induces insulin resistance, which ultimately causes type 2 diabetes. The adipose organ collaborates with those of digestion. Both produce hormones that can influence the nutritional behavior of individuals. They produce molecules that mutually influence functional activities including thermogenesis, which contributes to the interruption of the meal. The nutrients are absorbed by the intestine, stored in the adipose organ, and distributed by them to the whole body between meals. Distribution includes offspring during breastfeeding. The system as a whole is therefore called the nutritional system.
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Akaike, Takaaki, Keizo Sato, and Hiroshi Maeda. "Activation of Neocarzinostatin by NADPH/Cytochrome P-450 Reductase: Proposal of an Ultimate Mode of Action in Cells Involving Oxygen Free Radicals." In Neocarzinostatin, 155–66. Tokyo: Springer Japan, 1997. http://dx.doi.org/10.1007/978-4-431-66914-2_8.

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Slack, Jonathan. "1. What are stem cells?" In Stem Cells: A Very Short Introduction, 1–18. Oxford University Press, 2021. http://dx.doi.org/10.1093/actrade/9780198869290.003.0001.

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‘What are stem cells?’ explains that a stem cell is a cell that can both reproduce itself and generate offspring of different functional cell types and begins by considering the nature of cells in general, wherein cells are understood to be the ultimate structural unit of an animal or plant body. Stem cells in the body persist long term, usually for the lifetime of the organism. Good examples of differentiated cells arising from stem cells are those of the skin, the blood, and the lining of the intestine. Embryonic stem cells are grown in culture from early mammalian embryos. The reason that stem cell research is seen as the source for new cures is largely because this technology offers a route to cell therapy.
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Bonner, John Tyler. "The Evolution of the Decrease of Randomness." In Randomness in Evolution. Princeton University Press, 2013. http://dx.doi.org/10.23943/princeton/9780691157016.003.0004.

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This chapter explains why randomness is curtailed in larger forms. Large organisms are unlikely to have an overall neutral morphology like small ones, and the reason is to be found in their elaborate development. The greater the size, the more developmental steps. The voyage from a single cell, a fertilized egg, to a large, mature organism with millions of cells is a process that cannot be chaotic, but must be controlled if it is to achieve a consistent ultimate shape from generation to generation. There can be no significant deviation from those set steps to get from one generation to the next.
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Simpson, Michael L., and Gary S. Sayler. "The Device Science of Whole Cells as Components in Microscale and Nanoscale Systems." In Cellular Computing. Oxford University Press, 2004. http://dx.doi.org/10.1093/oso/9780195155396.003.0009.

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Intact whole cells may be the ultimate functional molecular-scale machines, and our ability to manipulate the genetic mechanisms that control these functions is relatively advanced when compared to our ability to control the synthesis and direct the assembly of man-made materials into systems of comparable complexity and functional density. Although engineered whole cells deployed in biosensor systems provide one of the practical successes of molecular-scale devices, these devices explore only a small portion of the full functionality of the cells. Individual or self-organized groups of cells exhibit extremely complex functionality that includes sensing, communication, navigation, cooperation, and even fabrication of synthetic nanoscopic materials. Adding this functionality to engineered systems provides motivation for deploying whole cells as components in microscale and nanoscale devices. In this chapter we focus on the device science of whole cell components in a way analogous to the device physics of semiconductor components. We consider engineering the information transport within and between cells, communication between cells and synthetic devices, the integration of cells into nanostructured and microstructured substrates to form highly functional systems, and modeling and simulation of information processing in cells. Even a casual examination of the information processing density of prokaryotic cells produces an appreciation for the advanced state of the cell’s capabilities. A bacterial cell such as Escherichia coli ( 2 μm2 cross-sectional area) with a 4.6 million basepair chromosome has the equivalent of a 9.2-megabit memory. This memory codes for as many as 4300 different polypeptides under the inducible control of several hundred different promoters. These polypeptides perform metabolic and regulatory functions that process the energy and information, respectively, made available to the cell. This complexity of functionality allows the cell to interact with, influence, and, to some degree, control its environment. Compare this to the silicon semiconductor situation as described in the International Technology Roadmap for Semiconductors (ITRS). ITRS predicts that by the year 2014, memory density will reach 24.5 Gbits/cm2, and logic transistor density will reach 664 M/cm2. Assuming four transistors per logic function, 2 μm2 of silicon could contain a 490-bit memory or approximately three simple logic gates.
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Leonard, Miriam. "Precarious life." In Antiquities Beyond Humanism, 77–94. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198805670.003.0005.

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In …Pleasure Principle, Freud juxtaposes his discussion of the life and death instincts in “elementary organisms” to the tragic drama he sees enacted in his grandson’s fort-da game. Freud’s insights into the death drive are given an added tragic dimension in Lacan’s reading of Oedipus at Colonus. Here Lacan establishes the anti- or even post-humanist credentials of tragedy by insisting that it is the death of the subject which is Sophocles’ ultimate preoccupation. By placing Greek tragedy’s confrontation with the death drive in dialogue with the instincts of the “germ-cell”, the chapter demonstrates how psychoanalysis offers a perfect model for understanding antiquity’s contribution to posthumanism.
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Edwards, Peter P., and Vladimir L. Kuznetsov. "Sustainable hydrogen energy." In Energy... beyond oil. Oxford University Press, 2007. http://dx.doi.org/10.1093/oso/9780199209965.003.0012.

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Hydrogen is the simplest and most abundant chemical element in our universe— it is the power source that fuels the Sun and its oxide forms the oceans that cover three quarters of our planet. This ubiquitous element could be part of our urgent quest for a cleaner, greener future. Hydrogen, in association with fuel cells, is widely considered to be pivotal to our world’s energy requirements for the twenty-first century and it could potentially redefine the future global energy economy by replacing a carbon-based fossil fuel energy economy. The principal drivers behind the sustainable hydrogen energy vision are therefore: • the urgent need for a reduction in global carbon dioxide emissions; • the improvement of urban (local) air quality; • the abiding concerns about the long-term viability of fossil fuel resources and the security of our energy supply; • the creation of a new industrial and technological energy base—a base for innovation in the science and technology of a hydrogen/fuel cell energy landscape. The ultimate realization of a hydrogen-based economy could confer enormous environmental and economic benefits, together with enhanced security of energy supply. However, the transition from a carbon-based(fossil fuel) energy system to a hydrogen-based economy involves significant scientific, technological, and socio-economic barriers. These include: • low-carbon hydrogen production from clean or renewable sources; • low-cost hydrogen storage; • low-cost fuel cells; • large-scale supporting infrastructure, and • perceived safety problems. In the present chapter we outline the basis of the growing worldwide interest in hydrogen energy and examine some of the important issues relating to the future development of hydrogen as an energy vector. As a ‘snapshot’ of international activity, we note, for example, that Japan regards the development and dissemination of fuel cells and hydrogen technologies as essential: the Ministry of Economy and Industry (METI) has set numerical targets of 5 million fuel cell vehicles and10 million kW for the total power generation by stationary fuel cells by 2020. To meet these targets, METI has allocated an annual budget of some £150 million over four years.
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Conference papers on the topic "Ultimate Cell"

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Cellere, G., M. Borgo, A. De Toni, L. Bandiera, L. Santoni, L. Biondato, A. Paccagnella, and L. Lorenzelli. "Using a cell manipulation biochip to investigate the adhesion characteristics of single mammalian cells." In 9th International Conference on Ultimate Integration on Silicon. IEEE, 2008. http://dx.doi.org/10.1109/ulis.2008.4527169.

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Lumb, Matthew P., Matt Meitl, Kenneth J. Schmieder, Maria Gonzalez, Shawn Mack, Michael K. Yakes, Mitchell F. Bennett, et al. "Towards the ultimate multi-junction solar cell using transfer printing." In 2016 IEEE 43rd Photovoltaic Specialists Conference (PVSC). IEEE, 2016. http://dx.doi.org/10.1109/pvsc.2016.7749405.

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Yablonovitch, Eli, and Owen Miller. "The Influence of the 4n2 Light Trapping Factor on Ultimate Solar Cell Efficiency." In Optics for Solar Energy. Washington, D.C.: OSA, 2010. http://dx.doi.org/10.1364/ose.2010.swa1.

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Yablonovitch, Eli, and Owen Miller. "The Influence of the 4n2 Light Trapping Factor on Ultimate Solar Cell Efficiency." In Optical Nanostructures for Photovoltaics. Washington, D.C.: OSA, 2010. http://dx.doi.org/10.1364/pv.2010.jmb3.

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Navarro, S., K. H. Lee, C. Marquez, C. Navarro, M. Parihar, H. Park, P. Galy, M. Bawedin, F. Gamiz, and S. Cristoloveanu. "Evaluation of thin-oxide Z2-FET DRAM cell." In 2018 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS). IEEE, 2018. http://dx.doi.org/10.1109/ulis.2018.8354342.

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Wakam, F. Tcheme, J. Lacord, M. Bawedin, S. Martinie, S. Cristoloveanu, and T. Poiroux. "Modeling of the bridge threshold voltage in A2RAM cell." In 2019 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS). IEEE, 2019. http://dx.doi.org/10.1109/eurosoi-ulis45800.2019.9041917.

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Galderisi, G., D. A. M. Feyen, R. Gaetani, M. Mercola, E. Messina, and F. Palma. "Contacts between CMOS circuits and cell membrane by silicon nanowires." In 2020 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS). IEEE, 2020. http://dx.doi.org/10.1109/eurosoi-ulis49407.2020.9365351.

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Issartel, D., T. Chaves de Albuquerque, R. Clerc, P. Pittet, R. Cellier, D. Golanski, A. Cathelin, and F. Calmon. "SPAD FDSOI cell optimization for lower dark count rate achievement." In 2020 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS). IEEE, 2020. http://dx.doi.org/10.1109/eurosoi-ulis49407.2020.9365292.

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Sherazi, Syed Muhammad Yasser, Miroslav Cupak, Pieter Weckx, Odysseas Zografos, Doyoung Jang, Peter Debacker, Diederik Verkest, et al. "Standard-cell design architecture options below 5nm node: The ultimate scaling of FinFET and Nanosheet." In Design-Process-Technology Co-optimization for Manufacturability XIII, edited by Jason P. Cain and Chi-Min Yuan. SPIE, 2019. http://dx.doi.org/10.1117/12.2514569.

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Putnam, Roger S. "2-D Neighborhood Operator Using A Single Channel A0 Cell Demonstrates Near Ultimate Data Flow Efficiency." In 1986 Technical Symposium Southeast, edited by Dennis R. Pape. SPIE, 1986. http://dx.doi.org/10.1117/12.964341.

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Reports on the topic "Ultimate Cell"

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King, R. R. Ultra-High-Efficiency Multijunction Cell and Receiver Module, Phase 1B: High Performance PV Exploring and Accelerating Ultimate Pathways; Final Subcontract Report, 13 May 2005 - 10 December 2008. Office of Scientific and Technical Information (OSTI), March 2010. http://dx.doi.org/10.2172/977286.

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