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Scanning probe microscopy for energy...

Bonnell, Dawn A.

Scanning probe microscopy for energy research

Record Type:	Electronic resources : Monograph/item
Title/Author:	Scanning probe microscopy for energy researcheditors, Dawn A Bonnell, Sergei V Kalinin.
other author:	Bonnell, Dawn A.
Published:	Hackensack, NJ :World Scientific Publishing Co.,c2013.
Description:	1 online resource (xvi, 602 p., 21 p. of plates) :ill. (some col.)
Notes:	Title from PDF title page (viewed Apr. 23, 2013)
Subject:	Electric batteriesResearch.
Online resource:	http://www.worldscientific.com/worldscibooks/10.1142/8613#t=toc
ISBN:	9789814434713 (electronic bk.)

Scanning probe microscopy for energy research
Scanning probe microscopy for energy research[electronic resource] /editors, Dawn A Bonnell, Sergei V Kalinin. - Hackensack, NJ :World Scientific Publishing Co.,c2013. - 1 online resource (xvi, 602 p., 21 p. of plates) :ill. (some col.) - World Scientific series in nanoscience and nanotechnology,v. 72301-301X ;. - World Scientific series in nanoscience and nanotechnology ;v. 3..

Title from PDF title page (viewed Apr. 23, 2013)

Includes bibliographical references and index.

Ch. 1. Local probes in the next decade of energy research: bridging macroscopic and atomic worlds / D.A. Bonnell and S.V. Kalinin -- ch. 2. Electrical scanning probe microscopy on solar cell materials / R. Giridharagopal, G.E. Rayermann and D.S. Ginger -- ch. 3. Organic solar cell materials and devices characterized by conductive and photoconductive atomic force microscopy / X.-D. Dang, M. Guide and T.-Q. Nguyen -- ch. 4. Kelvin probe force microscopy for solar cell applications / T. Glatzel -- ch. 5. Reversible rectification in sub-monolayer molecular P-N junctions: towards nanoscale photovoltaic studies / J.A. Smerdon, N.C. Giebink and J.R. Guest -- ch. 6. Study of photoinduced charges with atomic force microscopy / M. Dokukin, N. Guz and I. Sokolov -- ch. 7. Imaging of nanoscale photogenerated charge transport in organic photovoltaic materials / B. Hamadani, P.M. Haney and N.B. Zhitenev -- ch. 8. Photoassisted Kelvin probe force microscopy for characterization of solar cell materials / T. Takahashi -- ch. 9. Electrochemical strain microscopy of oxygen-ion conductors: fuel cells and oxide electronics / A. Kumar [and others] -- ch. 10. Ion dynamics in nanoscopic subvolumes of solid electrolytes analysed by electrostatic force spectroscopy / A. Schirmeisen and B. Roling -- ch. 11. Nanoscale electrochemistry in energy related systems using atomic force microscopy / W. Lee [and others] -- ch. 12. Scanning probe microscopy of fuel cell materials under realistic operating conditions / S.S. Nonnenmann and D.A. Bonnell -- ch. 13. In situ SPM analysis of interfacial phenomena in lithium-ion batteries / M. Inaba, S.-K. Jeong and Z. Ogumi -- ch. 14. Conducting-probe atomic force microscopy of electrochemical interfaces / P.A. Veneman and K.J. Stevenson -- ch. 15. Electrochemical strain microscopy of Li-ion and Li-air battery materials / T.M. Arruda [and others] -- ch. 16. High sensitivity scanning impedance microscopy and spectroscopy / S.S. Nonnenmann, X. Chen and D.A. Bonnell -- ch. 17. Scanning microwave microscopy: advances in quantitative capacitance and carrier density measurements at the nanometer scale / S. Wu, F. Kienberger and H. Tanbakuchi -- ch. 18. Mapping electrochemistry at the micro and nanoscales with scanning ion conductance microscopy / C. Laslau, D.E. Williams and J. Travas-Sejdic -- ch. 19. Force microscopy, nanochemistry and nanofabrication / R. Garcia, M. Chiesa and Y.K. Ryu -- ch. 20. Studying the mechanism of piezoelectric nanogenerators / J. Song and Z.L. Wang.

Efficiency and life time of solar cells, energy and power density of the batteries, and costs of the fuel cells alike cannot be improved unless the complex electronic, optoelectronic, and ionic mechanisms underpinning operation of these materials and devices are understood on the nanometer level of individual defects. Only by probing these phenomena locally can we hope to link materials structure and functionality, thus opening pathway for predictive modeling and synthesis. While structures of these materials are now accessible on length scales from macroscopic to atomic, their functionality has remained Terra Incognitae. In this volume, we provide a summary of recent advances in scanning probe microscopy studies of local functionality of energy materials and devices ranging from photovoltaics to batteries, fuel cells, and energy harvesting systems. Recently emergent SPM modes and combined SPM-electron microscopy approaches are also discussed. Contributions by internationally renowned leaders in the field describe the frontiers in this important field.

ISBN: 9789814434713 (electronic bk.)Subjects--Topical Terms:

717075
Electric batteries
--Research.

LC Class. No.: QH212.S33

Dewey Class. No.: 502.82

Scanning probe microscopy for energy research
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245 0 0 $a Scanning probe microscopy for energy research $h [electronic resource] / $c editors, Dawn A Bonnell, Sergei V Kalinin.
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505 0 $a Ch. 1. Local probes in the next decade of energy research: bridging macroscopic and atomic worlds / D.A. Bonnell and S.V. Kalinin -- ch. 2. Electrical scanning probe microscopy on solar cell materials / R. Giridharagopal, G.E. Rayermann and D.S. Ginger -- ch. 3. Organic solar cell materials and devices characterized by conductive and photoconductive atomic force microscopy / X.-D. Dang, M. Guide and T.-Q. Nguyen -- ch. 4. Kelvin probe force microscopy for solar cell applications / T. Glatzel -- ch. 5. Reversible rectification in sub-monolayer molecular P-N junctions: towards nanoscale photovoltaic studies / J.A. Smerdon, N.C. Giebink and J.R. Guest -- ch. 6. Study of photoinduced charges with atomic force microscopy / M. Dokukin, N. Guz and I. Sokolov -- ch. 7. Imaging of nanoscale photogenerated charge transport in organic photovoltaic materials / B. Hamadani, P.M. Haney and N.B. Zhitenev -- ch. 8. Photoassisted Kelvin probe force microscopy for characterization of solar cell materials / T. Takahashi -- ch. 9. Electrochemical strain microscopy of oxygen-ion conductors: fuel cells and oxide electronics / A. Kumar [and others] -- ch. 10. Ion dynamics in nanoscopic subvolumes of solid electrolytes analysed by electrostatic force spectroscopy / A. Schirmeisen and B. Roling -- ch. 11. Nanoscale electrochemistry in energy related systems using atomic force microscopy / W. Lee [and others] -- ch. 12. Scanning probe microscopy of fuel cell materials under realistic operating conditions / S.S. Nonnenmann and D.A. Bonnell -- ch. 13. In situ SPM analysis of interfacial phenomena in lithium-ion batteries / M. Inaba, S.-K. Jeong and Z. Ogumi -- ch. 14. Conducting-probe atomic force microscopy of electrochemical interfaces / P.A. Veneman and K.J. Stevenson -- ch. 15. Electrochemical strain microscopy of Li-ion and Li-air battery materials / T.M. Arruda [and others] -- ch. 16. High sensitivity scanning impedance microscopy and spectroscopy / S.S. Nonnenmann, X. Chen and D.A. Bonnell -- ch. 17. Scanning microwave microscopy: advances in quantitative capacitance and carrier density measurements at the nanometer scale / S. Wu, F. Kienberger and H. Tanbakuchi -- ch. 18. Mapping electrochemistry at the micro and nanoscales with scanning ion conductance microscopy / C. Laslau, D.E. Williams and J. Travas-Sejdic -- ch. 19. Force microscopy, nanochemistry and nanofabrication / R. Garcia, M. Chiesa and Y.K. Ryu -- ch. 20. Studying the mechanism of piezoelectric nanogenerators / J. Song and Z.L. Wang.
520 $a Efficiency and life time of solar cells, energy and power density of the batteries, and costs of the fuel cells alike cannot be improved unless the complex electronic, optoelectronic, and ionic mechanisms underpinning operation of these materials and devices are understood on the nanometer level of individual defects. Only by probing these phenomena locally can we hope to link materials structure and functionality, thus opening pathway for predictive modeling and synthesis. While structures of these materials are now accessible on length scales from macroscopic to atomic, their functionality has remained Terra Incognitae. In this volume, we provide a summary of recent advances in scanning probe microscopy studies of local functionality of energy materials and devices ranging from photovoltaics to batteries, fuel cells, and energy harvesting systems. Recently emergent SPM modes and combined SPM-electron microscopy approaches are also discussed. Contributions by internationally renowned leaders in the field describe the frontiers in this important field.
650 0 $a Electric batteries $x Research. $3 717075
650 0 $a Scanning probe microscopy $x Industrial applications. $3 275351
650 0 $a Power resources $x Research. $3 356918
650 0 $a Photovoltaic power generation. $3 184746
650 0 $a Solar cells. $3 184745
650 0 $a Electrochemistry. $3 192934
700 1 $a Bonnell, Dawn A. $3 226672
700 1 $a Kalinin, Sergei V. $3 717074
830 0 $a World Scientific series in nanoscience and nanotechnology ; $v v. 3. $3 575533
856 4 0 $u http://www.worldscientific.com/worldscibooks/10.1142/8613#t=toc