Using optical tweezers for the characterization of polyelectrolyte solutions with very low viscoelasticity

Microrheology of solutions of semiflexible biopolymer filaments using laser tweezers interferometry

Addas, K.
Schmidt, C.
Tang, J.X.

January 2004

A microrheology technique was developed to measure the viscoelastic properties of solutions of submi...

Microrheology with optical tweezers: Peaks and troughs

Tassieri, Manlio

October 2019

Since their first appearance in the 1970s, optical tweezers have been successfully exploited for a v...

Relaxation time of polyelectrolyte solutions: When μ-rheometry steps in charge

DEL GIUDICE, FRANCESCO
CALCAGNO, VINCENZO
GRECO, FRANCESCO
NETTI, PAOLO ANTONIO
MAFFETTONE, PIER LUCA
Esposito Taliento, Valeria

January 2017

Measuring the longest relaxation time of a viscoelastic liquid is an important step in its rheologic...

Using optical tweezers for the characterization of polyelectrolyte solutions with very low viscoelasticity

Pommella, A.
Preziosi, V.
Caserta, S.
Cooper, J.M.
Guido, S.
Tassieri, M.

January 2013

Recently, optical tweezing has been used to provide a method for microrheology addressed to measure ...

Using Optical Tweezers for the Characterization of Polyelectrolyte Solutions with Very Low Viscoelasticity

Angelo Pommella
Valentina Preziosi
Sergio Caserta
Jonathan M. Cooper
Stefano Guido
Manlio Tassieri

January 2013

Recently, optical tweezing has been used to provide a method for microrheology addressed to measure ...

Microrheology with optical tweezers: Measuring the relative viscosity of solutions 'at a glance'

Tassieri, Manlio
Del Giudice, Francesco
Robertson, Emma J.
Jain, Neena
Fries, Bettina
Wilson, Rab
Glidle, Andrew
Greco, Francesco
Netti, Paolo Antonio
Maffettone, Pier Luca
Bicanic, Tihana
Cooper, Jonathan M.

January 2015

We present a straightforward method for measuring the relative viscosity of fluids via a simple grap...

Accepted

Wan Nor
Suhaila Wan Aziz
Shahrul Kadri Ayop

January 2015

In this paper, we review the recent applications of optical tweezer (OT) in studying the microrheolo...

Microrheology of complex fluids using optical tweezers: comparison with macrorheologic measurements

PESCE, GIUSEPPE
RUSCIANO, GIULIA
NETTI, PAOLO ANTONIO
SASSO, ANTONIO
A. C. De Luca
S. Fusco

January 2009

The increasing interest in the mechanical properties of complex systems at mesoscopic scale has rece...

Microrheology with optical tweezers

Yao, Alison
Tassieri, Manlio
Padgett, Miles
Cooper, Jonathan

January 2009

Microrheology is the study of the flow of materials over small scales. It is of particular interest ...

Optical tweezer for micro and nano scale rheology of biomaterials

Raghu, A.
Yogesha, .
Ananthamurthy, S.

January 2010

Since the first proposal and demonstration of an optical trap to hold micron sized particles by Ashk...

Optical tweezers based active microrheology of sodium polystyrene sulfonate (NaPSS)

Chiang, Chia-Chun
Wei, Ming-Tzo
Chen, Yin-Quan
Yen, Pei-Wen
Huang, Yi-Chiao
Chen, Jun-Yeh
Lavastre, Olivier
Husson, Guillaume
Darsy, Guillaume
Chiou, Arthur

April 2011

International audienceWe used oscillatory optical tweezers to investigate the microrheological prope...

Microrheology

Mac Kintosh, F.C.
Schmidt, C.F.

January 1999

Several complementary techniques have been developed in recent years that make it possible to measur...

Optical microrheology of biopolymers

Parkin, Simon
Knoener, Gregor
Nieminen, Timo A.
Heckenberg, Norman R.
Rubinsztein-Dunlop, Halina

January 2006

We use passive and active techniques to study microrheology of a biopolymer solution. The passive te...

Microrheology with Optical Tweezers: Principles and Applications

Tassieri, Manlio

January 2016

Thanks to the pioneering works of Ashkin and coworkers, optical tweezers (OTs) have become an invalu...

Viscoelasticity measurements by an optofluidic micro-rheometer

Vitali V.
Nava G.
Zanchetta G.
Bragheri F.
Osellame R.
Bellini T.
Cristiani I.
Minzioni P.

January 2019

During the last decades, microrheology attracted a significant attention thanks to the possibility o...

Microrheology of solutions of semiflexible biopolymer filaments using laser tweezers interferometry

Addas, K.
Schmidt, C.
Tang, J.X.

January 2004

A microrheology technique was developed to measure the viscoelastic properties of solutions of submi...

Microrheology with optical tweezers: Peaks and troughs

Tassieri, Manlio

October 2019

Since their first appearance in the 1970s, optical tweezers have been successfully exploited for a v...

Relaxation time of polyelectrolyte solutions: When μ-rheometry steps in charge

DEL GIUDICE, FRANCESCO
CALCAGNO, VINCENZO
GRECO, FRANCESCO
NETTI, PAOLO ANTONIO
MAFFETTONE, PIER LUCA
Esposito Taliento, Valeria

January 2017

Measuring the longest relaxation time of a viscoelastic liquid is an important step in its rheologic...

Using optical tweezers for the characterization of polyelectrolyte solutions with very low viscoelasticity

Pommella, A.
Preziosi, V.
Caserta, S.
Cooper, J.M.
Guido, S.
Tassieri, M.

January 2013

Recently, optical tweezing has been used to provide a method for microrheology addressed to measure ...

Using Optical Tweezers for the Characterization of Polyelectrolyte Solutions with Very Low Viscoelasticity

Angelo Pommella
Valentina Preziosi
Sergio Caserta
Jonathan M. Cooper
Stefano Guido
Manlio Tassieri

January 2013

Recently, optical tweezing has been used to provide a method for microrheology addressed to measure ...

Microrheology with optical tweezers: Measuring the relative viscosity of solutions 'at a glance'

Tassieri, Manlio
Del Giudice, Francesco
Robertson, Emma J.
Jain, Neena
Fries, Bettina
Wilson, Rab
Glidle, Andrew
Greco, Francesco
Netti, Paolo Antonio
Maffettone, Pier Luca
Bicanic, Tihana
Cooper, Jonathan M.

January 2015

We present a straightforward method for measuring the relative viscosity of fluids via a simple grap...

Accepted

Wan Nor
Suhaila Wan Aziz
Shahrul Kadri Ayop

January 2015

In this paper, we review the recent applications of optical tweezer (OT) in studying the microrheolo...

Microrheology of complex fluids using optical tweezers: comparison with macrorheologic measurements

PESCE, GIUSEPPE
RUSCIANO, GIULIA
NETTI, PAOLO ANTONIO
SASSO, ANTONIO
A. C. De Luca
S. Fusco

January 2009

The increasing interest in the mechanical properties of complex systems at mesoscopic scale has rece...

Microrheology with optical tweezers

Yao, Alison
Tassieri, Manlio
Padgett, Miles
Cooper, Jonathan

January 2009

Microrheology is the study of the flow of materials over small scales. It is of particular interest ...

Optical tweezer for micro and nano scale rheology of biomaterials

Raghu, A.
Yogesha, .
Ananthamurthy, S.

January 2010

Since the first proposal and demonstration of an optical trap to hold micron sized particles by Ashk...

Optical tweezers based active microrheology of sodium polystyrene sulfonate (NaPSS)

Chiang, Chia-Chun
Wei, Ming-Tzo
Chen, Yin-Quan
Yen, Pei-Wen
Huang, Yi-Chiao
Chen, Jun-Yeh
Lavastre, Olivier
Husson, Guillaume
Darsy, Guillaume
Chiou, Arthur

April 2011

International audienceWe used oscillatory optical tweezers to investigate the microrheological prope...

Microrheology

Mac Kintosh, F.C.
Schmidt, C.F.

January 1999

Several complementary techniques have been developed in recent years that make it possible to measur...

Optical microrheology of biopolymers

Parkin, Simon
Knoener, Gregor
Nieminen, Timo A.
Heckenberg, Norman R.
Rubinsztein-Dunlop, Halina

January 2006

We use passive and active techniques to study microrheology of a biopolymer solution. The passive te...

Microrheology with Optical Tweezers: Principles and Applications

Tassieri, Manlio

January 2016

Thanks to the pioneering works of Ashkin and coworkers, optical tweezers (OTs) have become an invalu...

Viscoelasticity measurements by an optofluidic micro-rheometer

Vitali V.
Nava G.
Zanchetta G.
Bragheri F.
Osellame R.
Bellini T.
Cristiani I.
Minzioni P.

January 2019

During the last decades, microrheology attracted a significant attention thanks to the possibility o...

Microrheology of solutions of semiflexible biopolymer filaments using laser tweezers interferometry

Addas, K.
Schmidt, C.
Tang, J.X.

January 2004

A microrheology technique was developed to measure the viscoelastic properties of solutions of submi...

Microrheology with optical tweezers: Peaks and troughs

Tassieri, Manlio

October 2019

Since their first appearance in the 1970s, optical tweezers have been successfully exploited for a v...

Relaxation time of polyelectrolyte solutions: When μ-rheometry steps in charge

DEL GIUDICE, FRANCESCO
CALCAGNO, VINCENZO
GRECO, FRANCESCO
NETTI, PAOLO ANTONIO
MAFFETTONE, PIER LUCA
Esposito Taliento, Valeria

January 2017

Measuring the longest relaxation time of a viscoelastic liquid is an important step in its rheologic...

Using optical tweezers for the characterization of polyelectrolyte solutions with very low viscoelasticity

Abstract

Extracted data

Using optical tweezers for the characterization of polyelectrolyte solutions with very low viscoelasticity

Abstract

Extracted data

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