By Bruno Scrosati, K. M. Abraham, Walter A. van Schalkwijk, Jusef Hassoun
First built within the overdue Eighties, lithium-ion batteries now strength every thing from capsule desktops to energy instruments to electrical vehicles. regardless of great development within the final twenty years within the engineering and production of lithium-ion batteries, they're at present not able to fulfill the strength and gear calls for of many new and rising units. This booklet units the degree for the advance of a brand new iteration of higher-energy density, rechargeable lithium-ion batteries via advancing battery chemistry and deciding upon new electrode and electrolyte materials.
The first bankruptcy of Lithium Batteries units the basis for the remainder of the ebook with a short account of the background of lithium-ion battery improvement. subsequent, the booklet covers such issues as:
Advanced natural and ionic liquid electrolytes for battery applications
Advanced cathode fabrics for lithium-ion batteries
Metal fluorosulphates in a position to doubling the strength density of lithium-ion batteries
Efforts to advance lithium-air batteries
Alternative anode rechargeable batteries comparable to magnesium and sodium anode systems
Each of the 16 chapters has been contributed by means of a number of top specialists in electrochemistry and lithium battery know-how. Their contributions are according to the newest released findings in addition to their very own firsthand laboratory event. Figures through the e-book support readers comprehend the recommendations underlying the most recent efforts to strengthen the technological know-how of batteries and increase new fabrics. Readers also will discover a bibliography on the finish of every bankruptcy to facilitate extra learn into person topics.
Lithium Batteries presents electrochemistry scholars and researchers with a photograph of present efforts to enhance battery functionality in addition to the instruments had to improve their very own study efforts.
Quick preview of Lithium Batteries: Advanced Technologies and Applications PDF
Similar Chemistry books
Drug discovery more and more calls for a typical figuring out by means of researchers of the numerous and various elements that cross into the making of recent medications. The scientist getting into the sphere will instantly face very important matters for which his schooling won't have ready him: venture groups, patent legislations, specialists, aim product profiles, developments, Gantt charts, objective validation, pharmacokinetics, proteomics, phenotype assays, biomarkers, and plenty of different unexpected subject matters for which a simple realizing needs to by some means be acquired.
Kurti and Czako have produced an quintessential software for experts and non-specialists in natural chemistry. This leading edge reference paintings comprises 250 natural reactions and their strategic use within the synthesis of advanced common and unnatural items. Reactions are completely mentioned in a handy, two-page layout--using complete colour.
The legislation of thermodynamics force every thing that occurs within the universe. From the unexpected growth of a cloud of fuel to the cooling of scorching metal--everything is moved or confined through 4 uncomplicated legislation. Written by means of Peter Atkins, one of many world's best gurus on thermodynamics, this robust and compact creation explains what those 4 legislation are and the way they paintings, utilizing obtainable language and almost no arithmetic.
During this authoritative Very brief advent to the periodic desk, Eric Scerri provides a latest and clean exploration of this basic subject within the actual sciences, contemplating the deeper implications of the preparations of the desk to atomic physics and quantum mechanics. Scerri appears on the tendencies in houses of parts that ended in the development of the periodic desk, and the way the deeper which means of its constitution steadily grew to become obvious with the advance of atomic concept and quantum mechanics, in order that physics arguably got here to colonize a completely varied technological know-how, chemistry.
Extra info for Lithium Batteries: Advanced Technologies and Applications
126, 349 (1979). S. Basu, U. S. Patent 4,304,825 Dec. eight, 1981. B. Scrosati, J. Electrochem. Soc. , 139, 2776 (1992). M. Lazzari and B. Scrosati, J. Electrochem. Soc. , 127, 773 (1980). M. Lazzari and B. Scrosati, U. S. Patent 4,464,447 Aug. 7, 1984. J. J. Auborn and L. Barberio, J. Electrochem. Soc. , 134, 638 (1987). T. Nagaura and okay. Tazawa, Prog. Batteries sunlight Cells, nine, 20 (1990). S. Basu, U. S. Patent 4,423,125. Yoshino, U. S. Patent 4,668,595. S. -K. Jeong, M. Inaba, P. Abe, and Z. Ogumi, Electrochem. Soc. , 148, A989 (2001). T. Ohzuku, T.
26. okay. Xu, S. Ding, and T. R. Jow, J. Electrochem. Soc. , 148, A267 (2001). 27. M. Ue, M. Takeda, M. Takehara, and S. Mori, J. Electrochem. Soc. , a hundred and forty four, 2684 (1997). 28. B. Rasch, E. Cattaneo, P. Novak, and W. Vielstich, Electrochim. Acta, 36, 1397 (1991). 29. ok. Kanamura, S. Toriyama, S. Shiraishi, and Z. Takehara, J. Electrochem. Soc. , 142, 1383 (1995). 30. F. Ossola, G. Pistoia, R. Seeber, and P. Ugo, Electrochim. Acta, 33, forty seven (1988). 31. V. R. Koch, L. A. Dominey, C. Nanjundish, and M. J. Ondrechen, J. Electrochem. Soc. , 143, 798 (1996). 32. S.
Dahn, Electrochem. Solid-State Lett. , eight, A59 (2005). J. ok. Feng, X. P. Ai, Y. L. Cao, and H. X. Yang, Electrochem. Commun. , nine, 25 (2007). L. M. Moshuchak, M. Bulinski, W. M. Lamanna, R. L. Wang, and J. R. Dahn, Electrochem. Commun. , nine, 1497 (2007). M. Taggougui, B. Carr´e, P. Willmann, and D. Lemordant, J. strength assets, 174, 1069 (2007). M. Adachi, okay. Tanaka, and ok. Sekai, J. Electrochem. Soci. , 146, 1256 (1999). T. Li, L. Xing, W. Li, B. Peng, M. Xu, F. Gu, and S. Hu, J. Phys. Chem. A, a hundred and fifteen, 4988 (2011). Z. Chen and ok. Amine, Electrochim. Acta, fifty three, 453 (2007).
One hundred fifty, 1318 (2003). H. Li, G. Ritcher, and J. Maier, Adv. Mater. , 15, 736 (2003). N. Pereira, F. Badway, M. Wartelsky, S. Gunn, and G. G. Amatucci, J. Electrochem. Soc. , 156, 407 (2009). J. Barker, M. Y. Saidi, and J. Swoyer, U. S. Patent 6,387,568, 2002. J. Barker, M. Y. Saidi, and J. L. Swoyer, Electrochem. Solid-State Lett. , 6, 1 (2003). J. Barker, R. okay. B. Grover, P. Burns, A. Bryan, M. Y. Saidi, and J. L. Swoyer, J. Electrochem. Soc. , 152, 1776 (2005). J. Barker, R. ok. B. Grover, P. Burns, M. Y. Saidi, and J. L. Swoyer, J. strength resources, 146, 516 (2005).
Carr´e, P. Willmann, and D. Lemordant, J. strength resources, 174, 643 (2007). L. M. Moshurchak, C. Buhrmester, R. L. Wang, and J. R. Dahn, Electrochim. Acta, fifty two, 3779 (2007). G. Dantsin, okay. Jambunathan, S. V. Ivanov, W. J. Casteel, ok. Amine, J. Liu, A. N. Jansen, and Z. Chen, ECS assembly Abstracts, 502, 223 (2006). Z. Chen, J. Liu, A. N. Jansen, G. GirishKumar, B. Casteel, and ok. Amine, Electrochem. Solid-State Lett. , thirteen, A39 (2010). G. GirishKumar, W. H. Bailey, III, B. ok. Peterson, and J. W. J. Casteel, J. Electrochem. Soci. , 158, A146 (2011).