References on Other SPMs

 

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2014

1

M. S. Grinolds, M. Warner, K. De Greve, Y. Dovzhenko, L. Thiel, R. L. Walsworth1,, S. Hong, P. Maletinsky and A. Yacoby

Subnanometre resolution in three-dimensional magnetic resonance imaging of individual dark spins

Nature nanotechnology 9:279-284 (2014) (PDF File)

2012

1

Andrew I. Shevchuk, Pavel Novak, Marcus Taylor, Ivan A. Diakonov, Azza Ziyadeh-Isleem, Marc Bitoun, Pascale Guicheney,ax J. Lab, Julia Gorelik, Christien J. Merrifield, David Klenerman,Yuri E. Korchev

An alternative mechanism of clathrin-coated pit closure revealed by ion conductance microscopy

J. Cell Biol. (2012) DOI: 10.1083/jcb.201109130 (PDF File)

 

2011

1

Wei Wang, Kyle Foley, Xiaonan Shan, Shaopeng Wang, Seron Eaton, Vinay J. Nagaraj, Peter Wiktor, Urmez Patel and Nongjian Tao

Single cells and intracellular processes studied by a plasmonic-based electrochemical impedance microscopy

Nature Chemistry 3: 249-255 (2011) (PDF File)

2

Scanning ion conductance microscopy: a convergent high-resolution technology for multi-parametric analysis of living cardiovascular cells

Michele Miragoli, Alexey Moshkov, Pavel Novak, Andrew Shevchuk, Viacheslav O. Nikolaev, Ismail El-Hamamsy, Claire M. F. Potter, Peter Wright, S.H. Sheikh Abdul Kadir, Alexander R. Lyon, Jane A. Mitchell, Adrian H. Chester, David Klenerman, Max J. Lab, Yuri E. Korchev, Sian E. Harding and Julia Gorelik

J. R. Soc. Interface (2011) (PDF File)

3

D B Phillips, J A Grieve, S N Olof, S J Kocher, R Bowman, M J Padgett, M J Miles and D M Carberry

Surface imaging using holographic optical tweezers

Nanotechnology 22,  285503 (7pp) (2011).  (PDF File)

4

Imaging and characterisation of the surface of live cells

David Klenerman, Yuri. E. Korchev and Simon. J. Davis

Curr. Opn. Chem. Biol. 15: 1-8 (2011). (PDF File)

2010

1

Plasma membrane topography and interpretation of single-particle tracks

Jeremy Adler, Andrew I Shevchuk, Pavel Novak, Yuri E Korchev & Ingela Parmryd

Nat. Methods 7(3), 170-172 (2010) (PDF File) (supplementary)

 

2009

1

Image formation, resolution, and height measurement in scanning ion conductance microscopy

Johannes Rheinlaender and Tilman E. Schaffera

JOURNAL OF APPLIED PHYSICS 105, 094905 (2009) (PDF File)

2

Nanometer resolution piezoresponse force microscopy to study deep submicron ferroelectric and ferroelastic domains

Yachin Ivry, DaPing Chu, and Colm Durkan

Appl. Phys. Lett. 94:  162903 (2009) (PDF File)

3

Depth resolution of piezoresponse force microscopy

Florian Johann, Yongjun J. Ying, Tobias Jungk, Akos Hoffmann, Collin L. Sones, Robert W. Eason, Sakellaris Mailis, and Elisabeth Soergel

Appl. Phys. Lett. 94: 172904 (2009) (PDF File)

4

Nanoscale live-cell imaging using hopping probe ion conductance microscopy

Pavel Novak, Chao Li, Andrew I Shevchuk, Ruben Stepanyan, Matthew Caldwell,Simon Hughes, Trevor G Smart, Julia Gorelik, Victor P Ostanin, Max J Lab, Guy W J Moss, Gregory I Frolenkov, David Klenerman & Yuri E Korchev

Nat. Methods 6(4) 279-281 (2009) (PDF File)

5

Mechanical Diode-Based Ultrasonic Atomic Force Microscopies

M. Teresa Cuberes

Applied Scanning Probe Methods XI (Springer) 39-71 (2009) (PDF File)

2008

1

Subsurface defect of amorphous carbon film imaged by near field acoustic microscopy

J.T. Zeng, K.Y. Zhao, H.R. Zeng, H.Z. Song, L.Y. Zheng, G.R. Li, Q.R. Yin

Appl. Phys. A 91:261-265 (2008)  (PDF File) 

2

Analytical model of the nonlinear dynamics of cantilever tip-sample surface interactions for various acoustic atomic force microscopies

John H. Cantrell, and Sean A. Cantrell

PHYSICAL REVIEW B 77, 165409 2008 (PDF File)

3

Elastic phase response of silica nanoparticles buried in soft matter

Laurene Tetard, Ali Passian, Rachel M. Lynch, Brynn H. Voy, Gajendra Shekhawat, Vinayak Dravid, and Thomas Thundat

Appl. Phys. Lett. 93, 133113 (2008) (PDF File)

4

Imaging nanoparticles in cells by nanomechanical holography

LAURENE TETARD, ALI PASSIAN, KATHERINE T. VENMAR, RACHEL M. LYNCH, BRYNN H. VOY, GAJENDRA SHEKHAWAT, VINAYAK P. DRAVID AND THOMAS THUNDAT

Nature Nanotechnol. 3.501-505 (2008) (PDF File) (PDF File)

2007

1

Nanoscale subsurface imaging vis resonant difference-frequency atomic force ultrasonic microscopy

Sean A. Cantrell, John H. Cantrell, and Peter T. Lillehei

J. Appl. Phys. 101:114324 (2007)  (PDF File) 

2

Ultrasonic machining at the nanometer scale

M. Teresa Cuberes

J. Physics: Conference Series 61:219-223 (2007)  (PDF File) 

3

AFM and Acoustics: Fast, Quantitative Nanomechanical Mapping

Bryan D. Huey

Annu. Rev. Mater. Res. 37:351-385 (2007)  (PDF File)  

4

Nanoscale subsurface imaging via resonant difference-frequency atomic force ultrasonic microscopy

Sean A. Cantrell, John H. Cantrell, and Peter T. Lillehei

J. Appl. Phys. 101, 114324 (2007)  (PDF File)

2006

1

Seeing the invisible:Scannng near-field ultrasound holography (SNFUH) for high-resolution sub-surface imaging

Gajendra Shekhawat and Vinayak P. Dravid

Microsc. Microanal. 12(Supp 2) (2006).  (PDF File)

2

Two-dimensional nanoultrasonic imaging by using acoustic nanowaves

Kung-Hsuan Lin, Cheng-Ta Yu, Shih-Ze Sun, and Hung-Ping Chen

Appl. Phys. Lett. 89:043106 (2006). (PDF File)

3

Imaging proteins in membranes of living cells by high-resolution scanning ion conductance microscopy

Andrew I. Schevchuk, Gregory I. Frolenkov, Daniel Sanchez, Peter S. James, Noah Freedman, Max J. Lab, Roy Jones, David Klenerman, and Yuri F. Korchev

Angew. Chem. Int. Ed. 45:2212-2216 (2006). (PDF File)

4

Sensitivity of Ultrasonic and Heterodyne Force Microscopy to subsurface elastic inhomogeneities.

Oleg Kolosov

International Conference on Nanoscience and Technology ICN&T 2006. (PDF File)

5

Near-field acoustic and piezoresponse microscopy of domain structures in ferroelectric material

Q.R. Yon, H.R. Zeng, H.F. Yu, and G.R. Li

J. Mat. Sci. 41:259-270 (2006)  (PDF File)  

6

Nanoscale Dielectrophoretic Spectroscopy of Individual Immobilized Mammalian Blood Cells

Brian P. Lynch, Al M. Hilton, and Garth J. Simpson

Biophys. J.  91: 2678-2686 (2006). (PDF File)

2005

1

Dielectrophoretic Force Microscopy of Aqueous Interfaces

Brian P. Lynch, Al M. Hilton, Christopher H. Doerge, and Garth J. Simpson

Langmuir 21: 1436-1440 (2005). (PDF File)

2

Reduction of Tip?Sample Contact Using Dielectrophoretic Force Scanning Probe Microscopy

Al M. Hilton, Brian P. Lynch, and Garth J. Simpson

Anal. Chem.: 77 (24), 8008-8012 (2005). (PDF File)

3

Nanoscale imaging of buries structures vis scanning near-field ultrasound holography

Gajendra Shekhawat and Vinayak P. Dravid

Science 310(7):89-92 (2005).  (PDF File)

4

Sounding out subsurface nanofeasures

Alain C. Diebold

Science 310(7):61-62 (2005). (PDF File)

5

The scanned nanopipette: a new tool for high resolution bioimaging and controlled deposition of biomolecules

Liming Ying, Andreas Bruckbauer, Dejian Zhou, Julia Gorelik, Andrew Schevchuk, Max Lab, Yuri Korchev, and David Klenerman

Phys. Chem. Chem. Phys. 7:2859-2866 (2005). (PDF File)

6

The ultrasonic/shear-force microscope: Integrating ultrasonic sensing into a near-field scanning optical microscope

A. La Rosa, X. Cui, J. McCollum, N. Li, and R. Nordstrom

Rev. Sci. Instrum. 76, 093707 (2005) (PDF File)

Prior to 2004

1

Heterodyne force microscopy of OMMA/rubber nanocomposites: nanomapping of viscoelastic response at ultrasonic frequencies.

Cuberes MT, Assender HE, Briggs GAD, and Kosolov OV

J. Phys. D: Appl. Phys. 33:2347-2355 (2000)  (PDF File)

2

Analysis of subsurface imaging and effect of contact elasticity in the ultrasonic force microscope

Kazushi Yamanaka, Hisao Ogiso and Oleg Kolosov

Jpn. J. Appl. Phys. 33:3197-3203 (1994) (PDF File)

3

Scanning Ion Conductance Microscopy of Living Cells

Yuri E. Korchev, C. Lindsay Bashford, Mihailo Milovanovic, Igor Vodyanoy, and Max J. Lab

Biophysical Journal Volume 73 653-658 (1997) (PDF File) 

4