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Liquid Cell Electron Microscopy

$140.00 ( ) USD

Part of Advances in Microscopy and Microanalysis

Niels de Jonge, Frances M. Ross, Eric Jensen, Kristian Mølhave, Chongmin Wang, Andrei Kolmakov, Chikara Sato, Mitsuo Suga, Shen J. Dillon, Xin Chen, Nicholas M. Schneider, Nigel Browning, James E. Evans, See Wee Chee, Hong-Gang Liao, Kai-Yang Niu, Haimei Zheng, Raymond R. Unocic, Karren L. More, M. Grace Burke, Utkur Mirsaidov, Paul Matsudaira, Eugenii U. Donev, Matthew Bresin, J. Todd Hastings, Michael H. Nielsen, James J. De Yoreo, Diana B. Peckys, Andrew C. Demmert, Madeline J. Dukes, Elliot Pohlmann, Kaya Patel, A. Cameron Varano, Zhi Sheng, Sarah M. McDonald, Michael Spillman, Deborah F. Kelly, Haruo Sugi, Shigeru Chaen, Tsuyoshi Akimoto, Masaru Tanokura, Takuya Miyakawa, Hiroki Minoda, Jungwon Park, Vivekananda P. Adiga, Alex Zettl, A. Paul Alivisatos, Megan E. Holtz, David A. Muller, Nestor J. Zaluzec, Rafal E. Dunin-Borkowski, Lothar Houben, Taylor Woehl, Tanya Prozorov
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  • Publication planned for: December 2017
  • availability: Not yet published - available from December 2017
  • format: Adobe eBook Reader
  • isbn: 9781316883648

$ 140.00 USD ( )
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About the Authors
  • The first book on the topic, with each chapter written by pioneers in the field, this essential resource details the fundamental theory, applications, and future developments of liquid cell electron microscopy. This book describes the techniques that have been developed to image liquids in both transmission and scanning electron microscopes, including general strategies for examining liquids, closed and open cell electron microscopy, experimental design, resolution, and electron beam effects. A wealth of practical guidance is provided, and applications are described in areas such as electrochemistry, corrosion and batteries, nanocrystal growth, biomineralization, biomaterials and biological processes, beam-induced processing, and fluid physics. The book also looks ahead to the future development of the technique, discussing technical advances that will enable higher resolution, analytical microscopy, and even holography of liquid samples. This is essential reading for researchers and practitioners alike.

    • The first book on the topic, written by pioneers in the field
    • Provides practical guidance and examples from a wide range of scientific disciplines
    • Offers insights into the future development of the technique
    Read more

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    Product details

    • Publication planned for: December 2017
    • format: Adobe eBook Reader
    • isbn: 9781316883648
    • copublisher: Materials Research Society
    • contains: 81 b/w illus. 166 colour illus.
    • availability: Not yet published - available from December 2017
  • Table of Contents

    Part I. Technique:
    1. Past, present and future electron microscopy of liquid specimens Niels de Jonge and Frances M. Ross
    2. Encapsulated liquid cells for transmission electron microscopy Eric Jensen and Kristian Mølhave
    3. Imaging liquid processes using open cells in the TEM, SEM, and beyond Chongmin Wang
    4. Membrane based environmental cells for SEM in liquids Andrei Kolmakov
    5. Observations in liquids using an inverted SEM Chikara Sato and Mitsuo Suga
    6. Temperature control in liquid cells for TEM Shen J. Dillon and Xin Chen
    7. Electron beam effects in liquid cell TEM and STEM Nicholas M. Schneider
    8. Resolution in liquid cell experiments Niels de Jonge, Nigel Browning, James E. Evans, See Wee Chee and Frances M. Ross
    Part II. Applications:
    9. Nanostructure growth, interactions and assembly in the liquid phase Hong-Gang Liao, Kai-Yang Niu and Haimei Zheng
    10. Quantifying electrochemical processes using liquid cell TEM Frances M. Ross
    11. Application of electrochemical liquid cells for electrical energy storage and conversion studies Raymond R. Unocic and Karren L. More
    12. Applications of liquid cell TEM in corrosion science See Wee Chee and M. Grace Burke
    13. Nanoscale water imaged by liquid cell TEM Utkur Mirsaidov and Paul Matsudaira
    14. Nanoscale deposition and etching of materials using focused electron beams and liquid reactants Eugenii U. Donev, Matthew Bresin and J. Todd Hastings
    15. Liquid cell TEM for studying environmental and biological mineral systems Michael H. Nielsen and James J. De Yoreo
    16. Liquid STEM for studying biological function in whole cells Diana B. Peckys and Niels de Jonge
    17. Visualizing macromolecules in liquid at the nanoscale Andrew C. Demmert, Madeline J. Dukes, Elliot Pohlmann, Kaya Patel, A. Cameron Varano, Zhi Sheng, Sarah M. McDonald, Michael Spillman, Utkur Mirsaidov, Paul Matsudaira and Deborah F. Kelly
    18. Application of liquid cell microscopy to study function of muscle proteins Haruo Sugi, Shigeru Chaen, Tsuyoshi Akimoto, Masaru Tanokura, Takuya Miyakawa and Hiroki Minoda
    Part III. Prospects:
    19. High resolution imaging in the graphene liquid cell Jungwon Park, Vivekananda P. Adiga, Alex Zettl and A. Paul Alivisatos
    20. Analytical electron microscopy during in situ liquid cell studies Megan E. Holtz, David A. Muller and Nestor J. Zaluzec
    21. Spherical and chromatic aberration correction for atomic-resolution liquid cell electron microscopy Rafal E. Dunin-Borkowski and Lothar Houben
    22. The potential for imaging dynamic processes in liquids with high temporal resolution Nigel D. Browning and James E. Evans
    23. Future prospects for biomolecular, biomimetic and biomaterials research enabled by new liquid cell electron microscopy techniques Taylor Woehl and Tanya Prozorov.

  • Resources for

    Liquid Cell Electron Microscopy

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  • Editor

    Frances M. Ross, IBM T. J. Watson Research Center, New York
    Frances M. Ross is based at IBM's T. J. Watson Research Center, where she has built a program around a microscope with deposition and focused ion beam capabilities, and developed closed liquid cell microscopy to image electrochemical processes. Previously she worked at the National Center for Electron Microscopy, Lawrence Berkeley National Laboratory, and has also been a Visiting Scientist at Lunds Universitet, Sweden and an Adjunct Professor at Arizona State University. She received the UK Institute of Physics Boys Medal, the MRS Outstanding Young Investigator Award and the MSA Burton Medal, holds an Honorary Doctorate from Lunds Universitet, and is a Fellow of the American Physical Society, the American Association for the Advancement of Science, the Materials Research Society, the Microscopy Society of America and the American Vacuum Society.

    Contributors

    Niels de Jonge, Frances M. Ross, Eric Jensen, Kristian Mølhave, Chongmin Wang, Andrei Kolmakov, Chikara Sato, Mitsuo Suga, Shen J. Dillon, Xin Chen, Nicholas M. Schneider, Nigel Browning, James E. Evans, See Wee Chee, Hong-Gang Liao, Kai-Yang Niu, Haimei Zheng, Raymond R. Unocic, Karren L. More, M. Grace Burke, Utkur Mirsaidov, Paul Matsudaira, Eugenii U. Donev, Matthew Bresin, J. Todd Hastings, Michael H. Nielsen, James J. De Yoreo, Diana B. Peckys, Andrew C. Demmert, Madeline J. Dukes, Elliot Pohlmann, Kaya Patel, A. Cameron Varano, Zhi Sheng, Sarah M. McDonald, Michael Spillman, Deborah F. Kelly, Haruo Sugi, Shigeru Chaen, Tsuyoshi Akimoto, Masaru Tanokura, Takuya Miyakawa, Hiroki Minoda, Jungwon Park, Vivekananda P. Adiga, Alex Zettl, A. Paul Alivisatos, Megan E. Holtz, David A. Muller, Nestor J. Zaluzec, Rafal E. Dunin-Borkowski, Lothar Houben, Taylor Woehl, Tanya Prozorov

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