1.Lithium-ion Battery Materials in Practice.- 2.Optimizing Lithium-ion Battery Materials.- 3.Nanomaterials in Lithium-ion Cells.- 4.Predicting Materials’ Performance.- 5.Predicting Lithium-ion Cells’ Failure.- 6.Lithium-ion Cells Engineering for High-end Applications.- 7.Lithium-ion Cells in Hybrid Systems.- 8.The Competing Technologies Landscape.
Malgorzata K. Gulbinska holds a Ph.D. degree in chemistry, with experience in inorganic syntheses methods (including solid state methods) and in materials science and a strong background in materials analyses methods (such as XRD, SEM, BET, etc.) and the assembly and testing of coin and pouch lithium-ion cells (both half and full cells).
Since February 2005 she has been working at Yardney Technical Products, Inc., located in Pawcatuck, CT, USA. Yardney is a manufacturer of the high-end lithium-ion batteries for space, military and medical (implanted hearing aid) applications who also sponsored a significant part of her graduate (Ph.D.) thesis work that was described silicon-based anode materials for LIB applications.
Within the past years, Malgorzata Gulbinska was a PI and Co-PI on several completed and current grants; totaling over $3,000,000.00. The sources were/are both Federal (Department of Energy, National Science Foundation, Naval Air Warfare Center) as well as Industrial (BASF Catalysts LLC, NJ, USA; HPL SA, Lausanne, Switzerland).
Recently (2007-2009) she has been awarded five Phase I research grants; three from the U.S. Department of Energy, one from National Science Foundation, and one from NASA.
Gaining public attention due, in part, to their potential application as energy storage devices in cars, Lithium-ion batteries have encountered widespread demand, however, the understanding of lithium-ion technology has often lagged behind production.
This book defines the most commonly encountered challenges from the perspective of a high-end lithium-ion manufacturer with two decades of experience with lithium-ion batteries and over six decades of experience with batteries of other chemistries.
Authors with years of experience in the applied science and engineering of lithium-ion batteries gather to share their view on where lithium-ion technology stands now, what are the main challenges, and their possible solutions. The book contains real-life examples of how a subtle change in cell components can have a considerable effect on cell’s performance. Examples are supported with approachable basic science commentaries.
Providing a unique combination of practical know-how with an in-depth perspective, this book will appeal to graduate students, young faculty members, or others interested in the current research and development trends in lithium-ion technology.