Search Results - "\"\\"(((\\\"bell OR \\\"cell) tree\\\") OR ((\\\"bell OR \\\"cell) three\\\"))\\"\""
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PEM fuel cells : theory, performance and applications /
Published 2014Table of Contents: “…General Characteristics and Leading Fuel Cell Manufacturers; 3. Experimental Fuel Cell Laboratory; 4. …”
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Microscale Technologies for Cell Engineering
Published 2016Table of Contents: “…From the contents : Introduction -- Part I: Microscale Technologies for Controlling Stem Cell Microenvironments -- Microscale culture of pluripotent stem cells -- Microscale technology in cellular reprogramming -- Microfluidics-based technologies for stem cells and embryos.Part II: Microscale Tissue Engineering using Stem Cells -- Spatially defined cell culture within three-dimensional hydrogels -- Combinatorial 3D Matrices for Human Embryonic Stem Cell Differentiation -- Engineered stem cell-based scaffolds and patches for heart disorders.…”
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Fuel cell systems explained /
Published 2018Table of Contents: “…Intro -- Title Page -- Copyright Page -- Contents -- Brief Biographies -- Preface -- Acknowledgments -- Acronyms and Initialisms -- Symbols and Units -- Chapter 1 Introducing Fuel Cells -- 1.1 Historical Perspective -- 1.2 Fuel-Cell Basics -- 1.3 Electrode Reaction Rates -- 1.4 Stack Design -- 1.5 Gas Supply and Cooling -- 1.6 Principal Technologies -- 1.7 Mechanically Rechargeable Batteries and Other Fuel Cells -- 1.7.1 Metal-Air Cells -- 1.7.2 Redox Flow Cells -- 1.7.3 Biological Fuel Cells -- 1.8 Balance-of-Plant Components -- 1.9 Fuel-Cell Systems: Key Parameters -- 1.10 Advantages and Applications -- Further Reading -- Chapter 2 Efficiency and Open-Circuit Voltage -- 2.1 Open-Circuit Voltage: Hydrogen Fuel Cell -- 2.2 Open-Circuit Voltage: Other Fuel Cells and Batteries -- 2.3 Efficiency and Its Limits -- 2.4 Efficiency and Voltage -- 2.5 Influence of Pressure and Gas Concentration -- 2.5.1 Nernst Equation -- 2.5.2 Hydrogen Partial Pressure -- 2.5.3 Fuel and Oxidant Utilization -- 2.5.4 System Pressure -- 2.6 Summary -- Further Reading -- Chapter 3 Operational Fuel-Cell Voltages -- 3.1 Fundamental Voltage: Current Behaviour -- 3.2 Terminology -- 3.3 Fuel-Cell Irreversibilities -- 3.4 Activation Losses -- 3.4.1 The Tafel Equation -- 3.4.2 The Constants in the Tafel Equation -- 3.4.3 Reducing the Activation Overpotential -- 3.5 Internal Currents and Fuel Crossover -- 3.6 Ohmic Losses -- 3.7 Mass-Transport Losses -- 3.8 Combining the Irreversibilities -- 3.9 The Electrical Double-Layer -- 3.10 Techniques for Distinguishing Irreversibilities -- 3.10.1 Cyclic Voltammetry -- 3.10.2 AC Impedance Spectroscopy -- 3.10.3 Current Interruption -- Further Reading -- Chapter 4 Proton-Exchange Membrane Fuel Cells -- 4.1 Overview -- 4.2 Polymer Electrolyte: Principles of Operation -- 4.2.1 Perfluorinated Sulfonic Acid Membrane.…”
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Electromigration Inside Logic Cells Modeling, Analyzing and Mitigating Signal Electromigration in NanoCMOS /
Published 2017Table of Contents: “…State of the Art -- Chapter 3. Modeling Cell-internal EM -- Chapter 4. Current Calculation -- Chapter 5. …”
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Microtechnology for Cell Manipulation and Sorting
Published 2017Full-text access
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Label-Free Monitoring of Cells in vitro
Published 2019Table of Contents: “…Impedance-Based Assays Along the Life Span of Adherent Mammalian Cells In Vitro: From Initial Adhesion to Cell Death -- Transistor-Based Impedimetric Monitoring of Single Cells -- Label-Free Monitoring of 3D Tissue Models via Electrical Impedance Spectroscopy -- On the Use of the Quartz Crystal Microbalance for Whole-Cell-Based Biosensing -- Microphysiometry -- Optical Waveguide-Based Cellular Assays.…”
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Microsystems for Enhanced Control of Cell Behavior Fundamentals, Design and Manufacturing Strategies, Applications and Challenges /
Published 2016Table of Contents: “…Some introductory notes to cell behavior -- Brief introduction to the field of biomedical microsystems -- Brief introduction to bio-microsystems for interacting with cells -- Common bioengineering resources for interacting with cells -- Methodologies for the development of bio-microsystems -- Addressing the complexity of biomaterials by biomimetic CAD -- Multi-scale and multi-physical/biochemical modeling in bio-MEMS -- Rapid prototyping of bio-MEMS for interacting with cells -- Nanomanufacturing for biomedical MEMS -- Issues linked to the mass-production of biomedical microsystems -- Biomedical microsystems for disease management -- Overview of microsystems for studying cell behavior under culture -- Microsystems for studying cell adhesion, dynamics and and overall mechanobiology -- Smart microsystems for active cell culture toward relevant tissues -- Tissue engineering scaffolds for 3D cell culture -- Tissue engineering scaffolds for bone repair: General aspects -- Tissue engineering scaffolds for bone repair: Dental repair -- Tissue engineering scaffolds for repairing soft tissues -- Tissue engineering scaffolds for osteochondral repair -- From labs-on-chips to microfluidic cell culture -- Cell-based sensors and cell-based actuators -- Towards reliable organs-on-chips and humans-on-chips -- Towards effective and efficient biofabrication technologies -- Project-based learning in the field of biomedical microsystems -- Annexes.…”
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Microbial Fuel Cell Technology for Bioelectricity
Published 2018Table of Contents: “…Renewable biological sources of energy: Potentials, Progress and Barriers -- Chapter 2.Microbial fuel cell: Fundamentals, types and significance -- Chapter 3.Plant microbial fuel cell technology: Developments and limitations -- Chapter 4.Current advances in Paddy plant microbial fuel cell -- Chapter 5.Algal microbial fuel cells - Promising green energy generators -- Chapter 6.Fungal Fuel Cells - Nature's perpetual energy resource -- Chapter 7.Bio-electricity generation in soil microbial fuel cell using organic waste -- Chapter 8.Microbial fuel cell research using animal waste: A feebly explored area to others -- Chapter 9.Electricigens: Role and prominence in microbial fuel cell performance -- Chapter 10.Rumen fluid microbes for bioelectricity production - A novel approach -- Chapter 11.Advances in concurrent bio-electricity generation and bio-remediation through microbial fuel cells -- Chapter 12.Microbial Desalination Cell - A promising area in microbial fuel cell technology -- Chapter 13.The performance of microbial fuel cells in field trials - A global perspective -- Chapter 14.Future perspectives on cost - effective microbial fuel cells in rural areas.…”
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