Liquid Cell Electron Microscopy
Herausgeber: Ross, Frances M
Liquid Cell Electron Microscopy
Herausgeber: Ross, Frances M
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The first book on the topic, covering the fundamental theory, applications, and future developments of liquid cell electron microscopy.
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The first book on the topic, covering the fundamental theory, applications, and future developments of liquid cell electron microscopy.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 524
- Erscheinungstermin: 16. Januar 2017
- Englisch
- Abmessung: 305mm x 216mm x 51mm
- Gewicht: 1202g
- ISBN-13: 9781107116573
- ISBN-10: 1107116570
- Artikelnr.: 46474780
- Verlag: Cambridge University Press
- Seitenzahl: 524
- Erscheinungstermin: 16. Januar 2017
- Englisch
- Abmessung: 305mm x 216mm x 51mm
- Gewicht: 1202g
- ISBN-13: 9781107116573
- ISBN-10: 1107116570
- Artikelnr.: 46474780
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.
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.
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.
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.