High-Resolution Correlative Microscopy: Bridging the Gap between Single Molecule Localization Microscopy and Atomic Force Microscopy

Progress of AFM single-cell and single-molecule morphology imaging

Xiao, XiuBin B.
Dong, ZaiLi L.
Zhang, WeiJing J.
Wang, YueChao C.
Xi, Ning
Liu, LianQing Q.
Li, Mi

January 2013

Atomic force microscopy (AFM) can probe single living cells and single native membrane proteins in n...

Imaging Chemical Groups and Molecular Recognition Sites on Live Cells Using AFM

Alsteens, David
Dupres, Vincent
Dague, E.
Verbelen, Claire
André, Guillaume
Francius, Grégory
Dufrêne, Yves

January 2009

Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...

Single-molecule imaging of cell surfaces using near-field nanoscopy.

Hinterdorfer, Peter
Garcia-Parajo, Maria F.
Dufrêne, Yves

January 2012

Living cells use surface molecules such as receptors and sensors to acquire information about and to...

High-Resolution Correlative Microscopy: Bridging the Gap between Single Molecule Localization Microscopy and Atomic Force Microscopy

Pascal D. Odermatt (1665610)
Arun Shivanandan (708089)
Hendrik Deschout (1665613)
Radek Jankele (1665607)
Adrian P. Nievergelt (1665601)
Lely Feletti (1665598)
Michael W. Davidson (1665595)
Aleksandra Radenovic (213528)
Georg E. Fantner (1665604)

August 2015

Nanoscale characterization of living samples has become essential for modern biology. Atomic force m...

Stretching the resolution limit of atomic force microscopy

Hoogenboom, BW

August 2021

Atomic force microscopy (AFM) is unique in visualizing functional biomolecules in aqueous solution a...

How did correlative atomic force microscopy and super-resolution microscopy evolve in the quest for unravelling enigmas in biology?

Miranda, Adelaide (author)
Gómez-Varela, Ana I. (author)
Stylianou, Andreas (author)
Hirvonen, Liisa M. (author)
Sanchez González, H. (author)
De Beule, Pieter A.A. (author)

January 2021

With the invention of the Atomic Force Microscope (AFM) in 1986 and the subsequent developments in l...

High-Resolution Imaging of Chemical and Biological Sites on Living Cells Using Peak Force Tapping Atomic Force Microscopy

David Alsteens (228163)
Vincent Dupres (123715)
Sami Yunus (2014669)
Jean-Paul Latgé (2014672)
Jürgen J. Heinisch (2014666)
Yves F. Dufrêne (1394902)

December 2012

Currently, there is a growing need for methods that can quantify and map the molecular interactions ...

Single molecule localization microscopy:Imaging of cellular structures and a newthree-dimensional localization technique

Fan, Xiaoming

January 2014

The cell contains many different organelles, compartments and structures – e.g. focal adhesions, act...

Multiparametric Atomic Force Microscopy Imaging of Biomolecular and Cellular Systems

Alsteens, David
Müller, Daniel J.
Dufrêne, Yves F.

January 2017

There is a need in biochemical research for new tools that can image and manipulate biomolecular and...

Development of a High-Speed Atomic Force Microscope Combined with a High-resolution Optical Microscope for Biological Studies

Boehm, Ryan

April 2010

In the life sciences, it has long been a dream to view the nanometer-scale dynamic behavior of indiv...

High-Resolution Imaging of Chemical and Biological Sites on Living Cells Using Peak Force Tapping Atomic Force Microscopy

Alsteens, David
Dupres, Vincent
Yunus, Sami
Latgé, Jean-Paul
Heinisch, Jurgen J.
Dufrêne, Yves

January 2012

Currently, there is a growing need for methods that can quantify and map the molecular interactions ...

Nano-Scale Characterization of Biomolecules using Atomic Force Microscopy

Woo, Jung reem

January 2015

Atomic force microscopy (AFM) is a class of high-resolution scanning probe microscopy (SPM) for non-...

Analytical Methods, Correlative Microscopy and Software Tools for Quantitative Single Molecule Localization Microscopy

Shivanandan, Arun

August 2015

Single Molecule Localization Microscopy (SMLM) techniques, such as PhotoActivated Localization Micro...

Nanoscale imaging and force probing of biomolecular systems using atomic force microscopy: From single molecules to living cells

Li M(李密)
Dang D(党丹)
Wang YC(王越超)
Liu LQ(刘连庆)

January 2017

Due to the lack of adequate tools for observation, native molecular behaviors at the nanoscale have ...

Recognition imaging using atomic force microscopy.

Ebner, A.
Chtcheglova, L.
Tang, J.
Alsteens, David
Dupres, Vincent
Dufrêne, Yves
Hinterdorfer, P.

January 2009

The nanoscale exploration of microbes using atomic force microscopy (AFM) is an exciting research fi...

Progress of AFM single-cell and single-molecule morphology imaging

Xiao, XiuBin B.
Dong, ZaiLi L.
Zhang, WeiJing J.
Wang, YueChao C.
Xi, Ning
Liu, LianQing Q.
Li, Mi

January 2013

Atomic force microscopy (AFM) can probe single living cells and single native membrane proteins in n...

Imaging Chemical Groups and Molecular Recognition Sites on Live Cells Using AFM

Alsteens, David
Dupres, Vincent
Dague, E.
Verbelen, Claire
André, Guillaume
Francius, Grégory
Dufrêne, Yves

January 2009

Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...

Single-molecule imaging of cell surfaces using near-field nanoscopy.

Hinterdorfer, Peter
Garcia-Parajo, Maria F.
Dufrêne, Yves

January 2012

Living cells use surface molecules such as receptors and sensors to acquire information about and to...

High-Resolution Correlative Microscopy: Bridging the Gap between Single Molecule Localization Microscopy and Atomic Force Microscopy

Pascal D. Odermatt (1665610)
Arun Shivanandan (708089)
Hendrik Deschout (1665613)
Radek Jankele (1665607)
Adrian P. Nievergelt (1665601)
Lely Feletti (1665598)
Michael W. Davidson (1665595)
Aleksandra Radenovic (213528)
Georg E. Fantner (1665604)

August 2015

Nanoscale characterization of living samples has become essential for modern biology. Atomic force m...

Stretching the resolution limit of atomic force microscopy

Hoogenboom, BW

August 2021

Atomic force microscopy (AFM) is unique in visualizing functional biomolecules in aqueous solution a...

How did correlative atomic force microscopy and super-resolution microscopy evolve in the quest for unravelling enigmas in biology?

Miranda, Adelaide (author)
Gómez-Varela, Ana I. (author)
Stylianou, Andreas (author)
Hirvonen, Liisa M. (author)
Sanchez González, H. (author)
De Beule, Pieter A.A. (author)

January 2021

With the invention of the Atomic Force Microscope (AFM) in 1986 and the subsequent developments in l...

High-Resolution Imaging of Chemical and Biological Sites on Living Cells Using Peak Force Tapping Atomic Force Microscopy

David Alsteens (228163)
Vincent Dupres (123715)
Sami Yunus (2014669)
Jean-Paul Latgé (2014672)
Jürgen J. Heinisch (2014666)
Yves F. Dufrêne (1394902)

December 2012

Currently, there is a growing need for methods that can quantify and map the molecular interactions ...

Single molecule localization microscopy:Imaging of cellular structures and a newthree-dimensional localization technique

Fan, Xiaoming

January 2014

The cell contains many different organelles, compartments and structures – e.g. focal adhesions, act...

Multiparametric Atomic Force Microscopy Imaging of Biomolecular and Cellular Systems

Alsteens, David
Müller, Daniel J.
Dufrêne, Yves F.

January 2017

There is a need in biochemical research for new tools that can image and manipulate biomolecular and...

Development of a High-Speed Atomic Force Microscope Combined with a High-resolution Optical Microscope for Biological Studies

Boehm, Ryan

April 2010

In the life sciences, it has long been a dream to view the nanometer-scale dynamic behavior of indiv...

High-Resolution Imaging of Chemical and Biological Sites on Living Cells Using Peak Force Tapping Atomic Force Microscopy

Alsteens, David
Dupres, Vincent
Yunus, Sami
Latgé, Jean-Paul
Heinisch, Jurgen J.
Dufrêne, Yves

January 2012

Currently, there is a growing need for methods that can quantify and map the molecular interactions ...

Nano-Scale Characterization of Biomolecules using Atomic Force Microscopy

Woo, Jung reem

January 2015

Atomic force microscopy (AFM) is a class of high-resolution scanning probe microscopy (SPM) for non-...

Analytical Methods, Correlative Microscopy and Software Tools for Quantitative Single Molecule Localization Microscopy

Shivanandan, Arun

August 2015

Single Molecule Localization Microscopy (SMLM) techniques, such as PhotoActivated Localization Micro...

Nanoscale imaging and force probing of biomolecular systems using atomic force microscopy: From single molecules to living cells

Li M(李密)
Dang D(党丹)
Wang YC(王越超)
Liu LQ(刘连庆)

January 2017

Due to the lack of adequate tools for observation, native molecular behaviors at the nanoscale have ...

Recognition imaging using atomic force microscopy.

Ebner, A.
Chtcheglova, L.
Tang, J.
Alsteens, David
Dupres, Vincent
Dufrêne, Yves
Hinterdorfer, P.

January 2009

The nanoscale exploration of microbes using atomic force microscopy (AFM) is an exciting research fi...

Progress of AFM single-cell and single-molecule morphology imaging

Xiao, XiuBin B.
Dong, ZaiLi L.
Zhang, WeiJing J.
Wang, YueChao C.
Xi, Ning
Liu, LianQing Q.
Li, Mi

January 2013

Atomic force microscopy (AFM) can probe single living cells and single native membrane proteins in n...

Imaging Chemical Groups and Molecular Recognition Sites on Live Cells Using AFM

Alsteens, David
Dupres, Vincent
Dague, E.
Verbelen, Claire
André, Guillaume
Francius, Grégory
Dufrêne, Yves

January 2009

Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...

Single-molecule imaging of cell surfaces using near-field nanoscopy.

Hinterdorfer, Peter
Garcia-Parajo, Maria F.
Dufrêne, Yves

January 2012

Living cells use surface molecules such as receptors and sensors to acquire information about and to...

High-Resolution Correlative Microscopy: Bridging the Gap between Single Molecule Localization Microscopy and Atomic Force Microscopy

Abstract

Extracted data

High-Resolution Correlative Microscopy: Bridging the Gap between Single Molecule Localization Microscopy and Atomic Force Microscopy

Abstract

Extracted data

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