Lithium-ion Batteries : Solid-electrolyte Interphase. by Balbuena, Perla B.

Table of Contents: “…Spectroscopy studies of solid-electrolyte interphase on positive and negative electrodes for lithium ion batteries Zhaoxiang Wang, Xuejie Huang and Liquan Chen.…”
Full text (MCPHS users only)

Lithium-ion batteries : advances and applications / by Pistoia, G. (Gianfranco)

Table of Contents: “…Development of the lithium-ion battery and recent technological trends / Akira Yoshino -- 2. …”
Full text (MCPHS users only)

Lithium-ion batteries and applications : a practical and comprehensive guide to lithium-ion batteries and arrays, from toys to towns. Volume I, Batteries by Andrea, Davide

Subjects: “…Lithium ion batteries.…”
Full text (MCPHS users only)

Lithium-Ion Batteries and Applications A Practical and Comprehensive Guide to Lithium-Ion Batteries and Arrays, from Toys to Towns, Volume 2,. by Andrea, Davide

Subjects: “…Lithium ion batteries.…”
Full text (MCPHS users only)

Nanomaterials for Lithium-Ion Batteries : Fundamentals and Applications. by Yazami, Rachid

Table of Contents: “…Silicon nanowire electrodes for lithium-ion battery negative electrodes / Candace K. Chan, Matthew T. …”
Full text (MCPHS users only)

Lithium-ion battery failures in consumer electronics / by Arora, Ashish, Lele, Sneha Arun, Medora, Noshirwan, Souri, Shukri

Subjects: “…Lithium ion batteries.…”
Full text (MCPHS users only)

A Systems Approach to Lithium-Ion Battery Management. by Weicker, Phil

Table of Contents: “…1 Introduction -- 1.1 Battery Management Systems and Appli -- 1.2 State of the Art -- 1.3 Challenges -- 2 Lithium-Ion Battery Fundamentals -- 2.1 Battery Operation -- 2.2 Battery Construction -- 2.3 Battery Chemistry -- 2.4 Safety -- 2.5 Longevity -- 2.6 Performance -- 2.7 Integration -- 3 Large-Format Systems -- 3.1 Definition -- 3.2 Balance of Plant -- 3.3 Load Interface -- 3.4 Variation and Divergence -- 3.5 Application Parameters -- 4 System Description -- 4.1 Typical Inputs -- 4.2 Typical Outputs -- 4.3 Typical Functions -- 4.4 Summary -- 5 Architectures -- 5.1 Monolithic -- 5.2 Distributed -- 5.3 Semi-Distributed -- 5.4 Connection Methods -- 5.5 Additional Scalability -- 5.6 Battery Pack Architectures -- 5.7 Power Supply -- 5.8 Control Power -- 5.9 Computing Architecture -- 6 Measurement -- 6.1 Cell Voltage Measurement -- 6.2 Current Measurement -- 6.2.1 Current Sensors -- 6.2.2 Current Sense Measurement -- 6.3 Synchronization of Current and Volta -- 6.4 Temperature Measurement -- 6.5 Measurement Uncertainty and Battery -- 6.6 Interlock Status -- 7 Control -- 7.1 Contactor Control -- 7.2 Soft Start or Precharge Circuits -- 7.3 Control Topologies -- 7.4 Contactor Opening Transients -- 7.5 Chatter Detection -- 7.6 Economizers -- 7.7 Contactor Topologies -- 7.8 Contactor Fault Detection -- 8 Battery Management System Functionality -- 8.1 Charging Strategies -- 8.1.1 CC/CV Charging Method -- 8.1.2 Target Voltage Method -- 8.1.3 Constant Current Method -- 8.2 Thermal Management -- 8.3 Operational Modes -- 9 High-Voltage Electronics Fundamentals -- 9.1 High-Voltage DC Hazards -- 9.2 Safety of High-Voltage Electronics -- 9.3 Conductive Anodic Filaments -- 9.4 Floating Measurements -- 9.4.1 Y-Capacitance -- 9.5 HV Isolation -- 9.6 ESD Suppression on Isolated Devices -- 9.7 Isolation Detection -- 10 Communications -- 10.1 Overview.…”
Full text (MCPHS users only)

Reuse and recycling of lithium-ion power batteries by Zhao, Guangjin, 1981-

Subjects: “…Lithium ion batteries Recycling.…”
Full text (MCPHS users only)

Lithium Batteries : Advanced Technologies and Applications. by Scrosati, Bruno

Table of Contents: “…5 SYNERGY EFFECTS BETWEEN ELECTROLYTE ADDITIVES5.1 Double-Functionality Additives; 5.2 Synergies of Single-Functionality Additives; 6 CONCLUSIONS; REFERENCES; CHAPTER 4 ELECTROLYTES FOR LITHIUM-ION BATTERIES WITH HIGH-VOLTAGE CATHODES; 1 INTRODUCTION; 2 OXIDATION REACTIONS OF THE ELECTROLYTE WITH TRADITIONAL METAL OXIDE CATHODE MATERIALS; 3 THERMAL REACTIONS OF THE ELECTROLYTE WITH THE SURFACE OF METAL OXIDE CATHODES; 4 FORMULATION OF ELECTROLYTES FOR HIGH-VOLTAGE MATERIALS; 4.1 Chemistry of Cathodes at High Voltage.…”
Full text (MCPHS users only)

Lifetime prediction on lithium-ion battery cell and system level by Hahn, Severin Lukas

Full text (MCPHS users only)

Battery management systems for large lithium-ion battery packs / by Andrea, Davide

Table of Contents: “…Battery Management Systems for Large Lithium-Ion Battery Packs; Contents; Preface; Chapter 1: Introduction; Chapter 2: Bms Options; Chapter 3: Bms Functions; Chapter 4: Off-the-Shelf Bmss; Chapter 5: Custom Bms Design; Chapter 6: Deploying a Bms; List of Acronyms and Abbreviations; Glossary; About the Author; Index.…”
Full text (MCPHS users only)

Fundamentals and applications of lithium-ion batteries in electric drive vehicles / by Jiang, Jiuchun

Table of Contents: “…Cover; Table of Contents; Title page; About the Authors; Foreword; Preface; 1 Introduction; 1.1 The Development of Batteries in Electric Drive Vehicles; 1.2 Development of Battery Management Technologies; 1.3 BMS Key Technologies; References; 2 Performance Modeling of Lithium-ion Batteries; 2.1 Reaction Mechanism of Lithium-ion Batteries; 2.2 Testing the Characteristics of Lithium-ion Batteries; 2.3 Battery Modeling Method; 2.4 Simulation and Comparison of Equivalent Circuit Models; 2.5 Battery Modeling Method Based on a Battery Discharging Curve; 2.6 Battery Pack Modeling; References.…”
Full text (MCPHS users only)

Lithium ion batteries in electric drive vehicles /

Table of Contents: “…Newly developed lithium-ion battery pack technology for a mass-market electric vehicle (2013-01-1543) -- High-voltage battery system concepts for ISO 26262 compliance (2013-01-0181) -- Li-ion battery SOC estimation using non-linear estimation strategies based on equivalent circuit model (2014-01-1849) -- Development of battery hardware-in-the-loop system implemented with reduced-order electrochemistry li-ion battery models (2014-01-1858) -- Effect of electrode tabs configuration on the electric-thermal behavior of a li-ion battery (2014-01-1862) -- Thermal behavior of two commercial li-ion batteries for plug-in hybrid electric vehicles (2014-01-1840) -- Accelerated life test methodology for li-ion batteries in automotive applications (2013-01-1548) -- Thermal management modeling for avoidance of thermal runaway conditions in lithium ion batteries (2014-01-0707) -- Lithium-ion battery pack for stop and start systems (2013-01-1538) -- Identification of transportation battery systems for recycling (2012-01-0351).…”
Full text (MCPHS users only)

Should lithium ion batteries be on commercial jets? /

Full text (MCPHS users only)

The handbook of lithium-ion battery pack design : chemistry, components, types and terminology / by Warner, John (John T.)

Table of Contents: “…Chapter 13 -- Industrial Standards and OrganizationsVoluntary Standards; Research and Development and Trade Groups; Mandatory Standards Organizations; Chinese Standards and Industry Organizations; European Standards and Industry Organizations; Chapter 14 -- Second Life and Recycling of Lithium-Ion Batteries; Repairing and Remanufacturing; Refurbishing, Repurposing, and Second Life; Second Life Partnerships; Recycling; Chapter 15 -- Lithium-Ion Battery Applications; Personal Transportation Applications; Automotive Applications; Bus and Public Transportation; HD Truck Applications.…”
Full text (MCPHS users only)

Long hard road : the lithium-ion battery and the electric car / by Murray, Charles J., 1954-

Subjects: “…Lithium ion batteries History Popular works.…”
Full text (MCPHS users only)

Design and analysis of large lithium-Ion battery systems / by Santhanagopalan, Shriram, Kim, Gi-Heon, Keyers, Matthew, Pesaran, Ahmad A., Smith, Kandler, Neubauer, Jeremy

Subjects: “…Lithium ion batteries.…”
Full text (MCPHS users only)

Li-Ion Batteries Development and Perspectives. by Bloch, Didier

Subjects: Full text (MCPHS users only)

Challenges of a rechargeable magnesium battery : a guide to the viability of this post lithium-ion battery / by Bucur, Claudiu B.

Table of Contents: “…Foreword -- Preface -- Contents -- About the Author -- Chapter 1: Introduction -- References -- Chapter 2: Magnesium Electrolytes -- 2.1 Liquid Electrolytes -- 2.1.1 History -- 2.1.2 â#x80;#x9C;Nakedâ#x80;#x9D; Magnesium Salts -- 2.1.2.1 Simple Halide Salts -- 2.1.2.2 Complex Analogs of Salts Used in Lithium-Ion Batteries -- 2.1.2.3 Novel â#x80;#x9C;Nakedâ#x80;#x9D; Magnesium Salts -- 2.1.3 â#x80;#x9C;Dimerâ#x80;#x9D; Magnesium Salts -- 2.2 Ionic Liquids -- 2.3 Polymeric Conductors -- 2.4 Solid-State Conductors -- References -- Chapter 3: Magnesium Electrodes -- 3.1 Magnesium Metal Anodes…”
Full text (MCPHS users only)

Nanocarbon-Inorganic Hybrids : Next Generation Composites for Sustainable Energy Applications. by Eder, Dominik

Table of Contents: “…Graphene-metal oxide hybrids for lithium ion batteries and electrochemical capacitors /…”
Full text (MCPHS users only)

Synthesis and applications of copolymers

Table of Contents: “…Solid or Gel Polymer Electrolyte for Lithium-Ion Batteries --…”
Full text (MCPHS users only)

Flexible Energy Conversion and Storage Devices. by Zhi, Chunyi

Table of Contents: “…3.1.2.1 LiCoO2 with Layered Structure3.1.2.2 LiMn2O4 with a Spinel Structure; 3.1.2.3 LiFePO4 with an Olivine Structure; 3.1.3 Anode; 3.1.3.1 Carbonaceous Anodes; 3.1.3.2 Metal Alloy Anodes; 3.1.4 Electrolyte; 3.2 Planar-Shaped Flexible Lithium Ion Batteries; 3.2.1 Bendable Planar Lithium Ion Batteries; 3.2.1.1 Bendable Carbon-Based Planar Lithium Ion Battery; 3.2.1.2 Thin Metal Material-Based Lithium Ion Battery; 3.2.1.3 Polymer-Based Lithium Ion Battery; 3.2.1.4 Special Structural Design-Based Flexible Lithium-Ion Battery; 3.2.2 Stretchable Planar Flexible Lithium Ion Batteries.…”
Full text (MCPHS users only)

Advanced battery materials

Table of Contents: “…Carbon Anode Materials for Sodium-Ion Batteries / Hongshuai Hou, Hongshuai Hou, Xiaobo Ji, Xiaobo Ji -- Lithium Titanate-Based Lithium-Ion Batteries / Jiehua Liu, Xiangfeng Wei, Fancheng Meng -- Rational Material Design and Performance Optimization of Transition Metal Oxide-Based Lithium Ion Battery Anodes / Qingshui Xie, Dong-Liang Peng -- Effects of Graphene on the Electrochemical Properties of the Electrodes of Lithium Ion Batteries / Wenzhuo Shen, Shouwu Guo -- Practically Relevant Research on Silicon-Based Lithium-Ion Battery Anodes / Qing Ji, Qing Ji, Yonggao Xia, Jin Zhu, Binjie Hu, Peter Müller-Buschbaum, Ya-Jun Cheng, Ya-Jun Cheng -- Mo-Based Anode Materials for Alkali Metal Ion Batteries / Zhanwei Xu, Weiwei Guan, Yixing Zhao, Kai Yao, Juju He, Xinyue Liu, Xintong Duan -- Comprehensive Understanding of Lithium-Sulfur Batteries: Current Status and Outlook / Xue Bai, Xue Bai, Tao Li, Tao Li, Umair Gulzar, Umair Gulzar, Remo Proietti Zaccaria, Remo Proietti Zaccaria, Claudio Capiglia, Yu-Jun Bai -- Graphene in Lithium-Ion/Lithium-Sulfur Batteries / Guillermina L Luque, María Laura Para, Emiliano N Primo, M Victoria Bracamonte, Manuel Otero, Manuel Otero, María del Carmen Rojas, Francisco J García Soriano, German Lener, Andrea Calderón -- Graphene-Ionic Liquids Supercapacitors: Design, Fabrication and Applications / Minjie Shi, Xuefeng Song, Cheng Yang, Yuyu Tian, Kai Tao, Jijin Xu, Peng Zhang, Lian Gao -- Development of Battery Electrodes Based on Carbon Species and Conducting Polymers / Shahbaz Khan, Abdul Majid -- Doped Graphene for Electrochemical Energy Storage Systems / Jie Yanga, Jie Yanga, Zhenghui Pana, Zhenghui Pana, Yuegang Zhang, Yongcai Qiu, Yongcai Qiu -- Processing of Graphene Oxide for Enhanced Electrical Properties / Bhargav Raval, S K Mahapatra, Indrani Banerjee.…”
Full text (MCPHS users only)

US regulators launch comprehensive review

Full text (MCPHS users only)

How Boeing's 787 Dreamliner is radically different

Full text (MCPHS users only)

Advanced nanomaterials for aerospace applications

Table of Contents: “…Advanced Sensor Nanomaterials for Aerospace Applications -- Challenges and Possibilities in Nanosensor Technology -- Nanoporous Materials in Atmosphere Revitalization -- Nanotechnology in Advanced Life Support: Water Recycling -- Nanomaterials for Advanced Lithium-Ion Battery Anodes -- Advances in Designing High-Energy Cathode Materials for Li-Ion Rechargeable Batteries -- Nanomaterials in Regenerative Fuel Cells -- Nanotechnology for Nanoelectronic Devices -- Brief Introduction to Nanocomposites for Electromagnetic Shielding -- Epoxy Nanocomposite Based on Carbon Nanotubes for Electromagnetic Interface Shielding -- Bringing NASA-Relevant Nanotechnology Research into the Classroom -- Future Directions in Nanotechnology R & D at NASA.…”
Full text (MCPHS users only)

Study of lithium deposition and applicability of solid polymer electrolytes in lithium cells by Momeni Boroujeni, Sanaz

Table of Contents: “…Intro -- Zusammenfassung -- Abstract -- Chapter 1 Introduction -- 1.1 Motivation -- 1.2 Structure of this work -- Chapter 2 Theoretical and experimentalbackground -- 2.1 Electrochemical cells -- 2.2 Lithium ion battery -- 2.3 Lithium metal battery -- 2.4 Solid polymer electrolytes -- 2.5 Instrumentation and techniques -- Chapter 3 Lithium deposition in Li-ion andLi-metal cells -- 3.1 Kinetics study to predict Li plating in a Li-ioncell -- 3.2 Inuence of temperature and electrolyte onLi deposition -- Chapter 4 Solid polymer electrolytes -- 4.1 Manufacturing of the PEO solid electrolyte…”
Full text (MCPHS users only)

Nanotechnology for Sustainable Manufacturing.

Table of Contents: “…Chapter 9: Solar Photocatalytic Drinking Water Treatment for Developing CountriesChapter 10: Applications of Nanotechnology in the Building Industry; Chapter 11: Anticipatory Life-Cycle Assessment of SWCNT-Enabled Lithium Ion Batteries; Chapter 12: Life-Cycle Assessment of Nanotechnology-Based Applications; Back Cover.…”
Full text (MCPHS users only)

Carbons for Electrochemical Energy Storage and Conversion Systems. by Beguin, Francois

Table of Contents: “…Carbon Materials in Lithium-Ion Batteries; Chapter 8. Electrical Double-Layer Capacitors and Pseudocapacitors.…”
Full text (MCPHS users only)

Functional nanofibers and their applications

Table of Contents: “…8 Functional nanofibers for drug delivery applications8.1 Introduction; 8.2 Drug delivery mechanisms; 8.3 Applications of functional nanofibers in drug delivery: a case study; 8.4 Future trends; 8.5 References; 9 Functional nanofibers for tissue engineering applications; 9.1 Introduction; 9.2 Electrospinning of nanofibers; 9.3 Applications of nanofibers in tissue engineering; 9.4 Conclusions; 9.5 References; 10 Functional nanofibers in lithium-ion batteries; 10.1 Introduction; 10.2 Components and materials in lithium-ion batteries; 10.3 Applications of nanofibers in lithium-ion batteries.…”
Full text (MCPHS users only)

Lithium batteries : research, technology, and applications

Table of Contents: “…LITHIUM BATTERIES: RESEARCH, TECHNOLOGY AND APPLICATIONS ; LITHIUM BATTERIES: RESEARCH, TECHNOLOGY AND APPLICATIONS ; CONTENTS ; PREFACE ; LIFEPO4 CATHODE MATERIALS FOR LITHIUM-ION BATTERIES ; 1. INTRODUCTION ; 2. SYNTHESIS METHOD OF LIFEPO4 CATHODE MATERIALS ; 2.1. …”
Full text (MCPHS users only)

Battery Power Management for Portable Devices. by Barsukov, Yevgen

Table of Contents: “…Battery Power Management for Portable Devices; Contents; Preface; Acknowledgments; Foreword; 1 Battery Chemistry Fundamentals and Chara; 1.1 Introduction; 1.2 Battery Fundamentals and Electrical ; 1.3 General Battery Characteristics ; 1.3.1 Chemical Capacity and Energy; 1.3.2 Battery Impedance; 1.3.3 Usable Capacity; 1.3.4 Power Capability and the Ragone Pl; 1.3.5 Durability, Cycle Life, and Shelf-; 1.3.6 Self-Discharge Properties; 1.4 Monitoring and Safety; 1.5 Overview of Different Battery Techno; 1.5.1 Lead Acid; 1.5.2 Nickel Cadmium ; 1.5.3 Nickel Metal-Hydride; 1.5.4 Lithium Ion Battery.…”
Full text (MCPHS users only)

Functional nanocomposite materials : [special topic volume with invited peer reviewed papers only]

Table of Contents: “…Functional Nanocomposite Materials; Editorial; Table of Contents; Structure and Electrochemical Performance of Modificated LiMn2O4 by S-Co Codoping and Nano SiO2 Surface Coating; LiFePO4/Porous Carbon Nanocomposite Cathode Material for Lithium Ion Batteries; Effect of Nanocomposite Additives on Corrosion Inhibition of Zn Anode in Neutral Solution; Ordered Macroporous Carbon/Polyaniline Nanocomposites as Electrode Materials for Supercapacitors; Microstructure and Properties of Ferrite/Organic Nanocomposite Prepared with Microemulsion Method…”
Full text (MCPHS users only)

Frontiers of engineering : reports on leading-edge engineering from the 2014 symposium

Table of Contents: “…Morimoto -- Battery anxiety -- Introduction / Jeff Sakamoto and Daniel Steingart -- Electrochemical Prozac: relieving battery anxiety through life and safety research / Alvaro Masias -- Challenges in batteries for electric vehicles / Sarah Stewart, Jake Christensen, Nalin Chaturvedi, and Aleksandar Kojic -- Lithium ion batteries and their manufacturing challenges / Claus Daniel -- Technologies for the heart -- Introduction / Karen Christman and Ashley Peterson -- The history of heart valves: an industry perspective / Erin M. …”
Full text (MCPHS users only)

Advances in materials development : a festschrift honouring Subrata Ray

Table of Contents: “…Challenges in Manufacturing Aluminium Based Metal Matrix Nanocomposites via Stir Casting RouteFabrication and Characterisation of Al-Al2O3 Composite by Mechanical Alloying; Multifunctional Mesoporous Nanocomposites; Synthesis and Hydrogen Storage Properties of Magnesium Nanoparticles with Core/Shell Structure; Ball-Milled Graphite-Tin Composite Anode Materials for Lithium-Ion Battery; Alloy Developments in Biomedical Co-Base Alloys for HIP Implant Applications; Frontiers in Applied Atomic Layer Deposition (ALD) Research…”
Full text (MCPHS users only)

Advances in materials science for environmental and energy technologies

Table of Contents: “…Study on Heteropolyacids/Ti/Zr Mixed Inorganic Composites for Fuel Cell ElectrolytesENERGY STORAGE: MATERIALS, SYSTEMS AND APPLICATIONS; Fatigue Testing of Hydrogen-Exposed Austenitic Stainless Steel in an Undergraduate Materials Laboratory; LiMnxFe1-x PO4 Glass and Glass-Ceramics for Lithium Ion Battery; The Absorption of Hydrogen on Low Pressure Hydride Materials; Polymethylated Phenanthrenes as a Liquid Media for Hydrogen Storage; Author Index…”
Full text (MCPHS users only)

Nanostructured materials and nanotechnology VII : a collection of papers presented at the 37th International Conference on Advanced Ceramics and Composites, January 27-February 1,...

Table of Contents: “…Cover; Title Page; Copyright Page; Contents; Preface; Introduction; NANOSTRUCTURED MATERIALS AND NANOTECHNOLOGY; Sol-Gel Approach to the Calcium Phosphate Nanocomposites; Reinforcement Mechanisms in Alumina Toughened Zirconia Nanocomposites with Different Stabilizing Agents; Synthesis and Characterization of Nanostructured Copper Oxide; X-Ray Diffraction Study on the In-Situ Crystallization Kinetics in Electrospun PVP/TiO2 Nanofibers; Metal-Catalyzed Growth of ZnO Nanowires; Graphene-SnO2 Nanocomposites for Lithium-Ion Battery Anodes.…”
Full text (MCPHS users only)

Multi-functional nanoscale materials and their potential applications

Table of Contents: “…Multi-Functional Nanoscale Materials and their Potential Applications; Preface; Table of Contents; Magnetic Nanoparticles as Drug Carriers: Review; Carbon-Based Nanomaterials for Drugs Sensing: A Review; A Review on PEO Based Solid Polymer Electrolytes (SPEs) Complexed with LiX (X=Tf, BOB) for Rechargeable Lithium Ion Batteries; Photodegradation of Reactive Red 141 and Reactive Yellow 105 Dyes Using Prepared TiO2 Nanoparticles; V2O5-Photocatalyzed Oxidation of Diphenylamine.…”
Full text (MCPHS users only)

Electrodynamic and mechatronic systems : selected, peer reviewed extended papers from the International Symposium on Electrodynamic and Mechatronic Systems (SELM 2013), May 15-18,...

Table of Contents: “…Electrodynamic and Mechatronic Systems; Preface and Committees; Table of Contents; Touch-Less Java Based Hand Tracking System to Control an Artificial Arm; Analysis of a Position Control Extension on the Model of a Servo-Screw-Press; Similarity Estimation for Assessing the Accuracy of a Non-Invasive Identification Method; Influence of the Electrodeposition Cathodic Potential on the Composition and Magnetic Properties of CoNi Nanowires; Modeling the Electrical Behavior of Lithium-Ion Batteries for Electric Vehicles…”
Full text (MCPHS users only)

China functional materials technology and industry forum : selected, peer reviewed papers from the 2014 China Functional Materials Technology and Industry Forum (CFMTIF), August 26...

Table of Contents: “…Multifunctionalities of Nanocarbon Materials Filled Cement-Based CompositesEffect of Nano-Magnesium on the Thermal Decomposition of PTFE; Synthesis and Properties of Nano-TiO2 Modified Fluorine-Containing Polyacrylate Soap-Free Emulsion; Fabrication of Highly Hydrophobic Polyurethane Foam for the Oil-Absorption Application; Effects of Carboxyl Functionalized Carbon Nanotube on the Tensile Strength and Wear Resistance of Epoxy Composites; Improved Low Temperature Solution Synthesis of Silicon Nanoparticles for Lithium-Ion Batteries.…”
Full text (MCPHS users only)