Interferometry-based micropipette aspiration allows to study of the nanoscale dynamic mechanical behavior of biomaterials

Fluctuations of a membrane nanotube revealed by high-resolution force measurements

Valentino, F.
Sens, Pierre
Lemière, J.
Allard, A.
Betz, T.
Campillo, Clément
Sykes, C.

January 2016

International audiencePulling membrane nanotubes from liposomes presents a powerful method to gain a...

Experimental and Data Analysis Workflow for Soft Matter Nanoindentation

Ciccone, Giuseppe
Gonzalez Oliva, Mariana Azevedo
Antonovaite, Nelda
Lüchtefeld, Ines
Salmeron-Sanchez, Manuel
Vassalli, Massimo

January 2022

Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...

Exploring nano-mechanics through thermal fluctuations

Bellon, Ludovic

November 2010

176 pages format A5This mémoire presents my current research interests in micro and nano-mechanics i...

Interferometry-based micropipette aspiration allows to study of the nanoscale dynamic mechanical behavior of biomaterials

Berardi, Massimiliano
Bielawski, Kevin
Rijnveld, Niek
Gruca, Grzegorgz
Aardema, Hilde
Van Tol, Leni
Wuite, Gijs
Acka, Imran B.
Amelink, Arjen
Nadkarni, Seemantini K.
Scarcelli, Giuliano

December 2021

A novel, interferometry-based approach to micropipette aspiration overcomes the spatial resolution l...

Optical interferometry based micropipette aspiration provides real-time sub-nanometer spatial resolution

Berardi, Massimiliano
Bielawski, Kevin
Rijnveld, Niek
Gruca, Grzegorz
Aardema, Hilde
van Tol, Leni
Wuite, Gijs
Akca, B Imran
FAH klinische reproductie
dES/dFAH FR

December 2021

Micropipette aspiration (MPA) is an essential tool in mechanobiology; however, its potential is far ...

Hydraulic force spectroscopy: An interferometry-based approach to micropipette aspiration for mechanobiology studies at the nanoscale

Berardi, Massimiliano
Bogers, Eline
Bielawski, Kevin
Acka, Imran B.
Larin, Kirill V.
Scarcelli, Giuliano

March 2022

We present a new approach to Micropipette Aspiration (MPA), a pioneering method in mechanobiology, t...

Analysis of active micromembranes with nanometer resolution

Aswendt, P.
Dean, T.

January 2004

The paper describes methodology, instrumentation, and experiments for the study of the mechanical be...

Microfluidic characterization of biomimetic membrane mechanics with an on-chip micropipette

Elias, Marianne
Dutoya, Adrien
Laborde, Adrian
Lecestre, Aurélie
Montis, Costanza
Caselli, Lucrezia
Berti, Debora
Lonetti, Barbara
Roux, Clément
Joseph, Pierre

August 2020

International audienceThe mechanic properties of cell membranes control many biological processes. T...

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

Ying, LM
Bruckbauer, A
Zhou, DJ
Gorelik, J
Schevchuk, AI
Lab, M
Korchev, YE
Klenerman, D

October 2005

The boundary between the physical and biological sciences has been eroded in recent years with new p...

Interferometric methods for static and dynamic characterizations of micromembranes for sensing functions

Ürey, Hakan
Salbut, Leszek

January 2017

We present a methodology for static and dynamic testing of mechanical properties of microelements. T...

Physics of nanomechanical spectrometry of viruses

Ruz Martínez, José Jaime
Tamayo de Miguel, Francisco Javier
Pini, Valerio
Kosaka, Priscila M.
Calleja, Montserrat

May 2016

There is an emerging need of nanotools able to quantify the mechanical properties of single biologic...

Versatile Horizontal Force Probe for Mechanical Tests on Pipette-Held Cells, Particles, and Membrane Capsules

Ounkomol, Chawin
Xie, Hongtao
Dayton, Paul A.
Heinrich, Volkmar

February 2009

AbstractWe present a multipurpose nanomechanical force probe that combines a sideways-mounted elasti...

Micropipette force sensors for in vivo force measurements on single cells and multicellular microorganisms

Backholm, Matilda
Bäumchen, Oliver

August 2019

Measuring forces from the piconewton to millinewton range is of great importance for the study of li...

A Microfluidic Micropipette Aspiration Device to Study Single-Cell Mechanics Inspired by the Principle of Wheatstone Bridge

Yong-Jiang Li
Yu-Nong Yang
Hai-Jun Zhang
Chun-Dong Xue
De-Pei Zeng
Tun Cao
Kai-Rong Qin

February 2019

The biomechanical properties of single cells show great potential for early disease diagnosis and ef...

A micromachined membrane-based active probe for biomolecular mechanics measurement

Torun, Hamdi
Sutanto, Jofy Hadi
Sarangapani, Krishna K.
Joseph, P.
Degertekin, F. L.
Zhu, C.

April 2007

A novel micromachined, membrane-based probe has been developed and fabricated as assays to enable pa...

Fluctuations of a membrane nanotube revealed by high-resolution force measurements

Valentino, F.
Sens, Pierre
Lemière, J.
Allard, A.
Betz, T.
Campillo, Clément
Sykes, C.

January 2016

International audiencePulling membrane nanotubes from liposomes presents a powerful method to gain a...

Experimental and Data Analysis Workflow for Soft Matter Nanoindentation

Ciccone, Giuseppe
Gonzalez Oliva, Mariana Azevedo
Antonovaite, Nelda
Lüchtefeld, Ines
Salmeron-Sanchez, Manuel
Vassalli, Massimo

January 2022

Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...

Exploring nano-mechanics through thermal fluctuations

Bellon, Ludovic

November 2010

176 pages format A5This mémoire presents my current research interests in micro and nano-mechanics i...

Interferometry-based micropipette aspiration allows to study of the nanoscale dynamic mechanical behavior of biomaterials

Berardi, Massimiliano
Bielawski, Kevin
Rijnveld, Niek
Gruca, Grzegorgz
Aardema, Hilde
Van Tol, Leni
Wuite, Gijs
Acka, Imran B.
Amelink, Arjen
Nadkarni, Seemantini K.
Scarcelli, Giuliano

December 2021

A novel, interferometry-based approach to micropipette aspiration overcomes the spatial resolution l...

Optical interferometry based micropipette aspiration provides real-time sub-nanometer spatial resolution

Berardi, Massimiliano
Bielawski, Kevin
Rijnveld, Niek
Gruca, Grzegorz
Aardema, Hilde
van Tol, Leni
Wuite, Gijs
Akca, B Imran
FAH klinische reproductie
dES/dFAH FR

December 2021

Micropipette aspiration (MPA) is an essential tool in mechanobiology; however, its potential is far ...

Hydraulic force spectroscopy: An interferometry-based approach to micropipette aspiration for mechanobiology studies at the nanoscale

Berardi, Massimiliano
Bogers, Eline
Bielawski, Kevin
Acka, Imran B.
Larin, Kirill V.
Scarcelli, Giuliano

March 2022

We present a new approach to Micropipette Aspiration (MPA), a pioneering method in mechanobiology, t...

Analysis of active micromembranes with nanometer resolution

Aswendt, P.
Dean, T.

January 2004

The paper describes methodology, instrumentation, and experiments for the study of the mechanical be...

Microfluidic characterization of biomimetic membrane mechanics with an on-chip micropipette

Elias, Marianne
Dutoya, Adrien
Laborde, Adrian
Lecestre, Aurélie
Montis, Costanza
Caselli, Lucrezia
Berti, Debora
Lonetti, Barbara
Roux, Clément
Joseph, Pierre

August 2020

International audienceThe mechanic properties of cell membranes control many biological processes. T...

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

Ying, LM
Bruckbauer, A
Zhou, DJ
Gorelik, J
Schevchuk, AI
Lab, M
Korchev, YE
Klenerman, D

October 2005

The boundary between the physical and biological sciences has been eroded in recent years with new p...

Interferometric methods for static and dynamic characterizations of micromembranes for sensing functions

Ürey, Hakan
Salbut, Leszek

January 2017

We present a methodology for static and dynamic testing of mechanical properties of microelements. T...

Physics of nanomechanical spectrometry of viruses

Ruz Martínez, José Jaime
Tamayo de Miguel, Francisco Javier
Pini, Valerio
Kosaka, Priscila M.
Calleja, Montserrat

May 2016

There is an emerging need of nanotools able to quantify the mechanical properties of single biologic...

Versatile Horizontal Force Probe for Mechanical Tests on Pipette-Held Cells, Particles, and Membrane Capsules

Ounkomol, Chawin
Xie, Hongtao
Dayton, Paul A.
Heinrich, Volkmar

February 2009

AbstractWe present a multipurpose nanomechanical force probe that combines a sideways-mounted elasti...

Micropipette force sensors for in vivo force measurements on single cells and multicellular microorganisms

Backholm, Matilda
Bäumchen, Oliver

August 2019

Measuring forces from the piconewton to millinewton range is of great importance for the study of li...

A Microfluidic Micropipette Aspiration Device to Study Single-Cell Mechanics Inspired by the Principle of Wheatstone Bridge

Yong-Jiang Li
Yu-Nong Yang
Hai-Jun Zhang
Chun-Dong Xue
De-Pei Zeng
Tun Cao
Kai-Rong Qin

February 2019

The biomechanical properties of single cells show great potential for early disease diagnosis and ef...

A micromachined membrane-based active probe for biomolecular mechanics measurement

Torun, Hamdi
Sutanto, Jofy Hadi
Sarangapani, Krishna K.
Joseph, P.
Degertekin, F. L.
Zhu, C.

April 2007

A novel micromachined, membrane-based probe has been developed and fabricated as assays to enable pa...

Fluctuations of a membrane nanotube revealed by high-resolution force measurements

Valentino, F.
Sens, Pierre
Lemière, J.
Allard, A.
Betz, T.
Campillo, Clément
Sykes, C.

January 2016

International audiencePulling membrane nanotubes from liposomes presents a powerful method to gain a...

Experimental and Data Analysis Workflow for Soft Matter Nanoindentation

Ciccone, Giuseppe
Gonzalez Oliva, Mariana Azevedo
Antonovaite, Nelda
Lüchtefeld, Ines
Salmeron-Sanchez, Manuel
Vassalli, Massimo

January 2022

Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...

Exploring nano-mechanics through thermal fluctuations

Bellon, Ludovic

November 2010

176 pages format A5This mémoire presents my current research interests in micro and nano-mechanics i...

Interferometry-based micropipette aspiration allows to study of the nanoscale dynamic mechanical behavior of biomaterials

Abstract

Extracted data

Interferometry-based micropipette aspiration allows to study of the nanoscale dynamic mechanical behavior of biomaterials

Abstract

Extracted data

Related items

Related items