Electroactive Surfaces Based on Conducting Polymers for Controlling Cell Adhesion, Signaling, and Proliferation

Control of neural stem cell survival by electroactive polymer substrates.

Vanessa Lundin
Anna Herland
Magnus Berggren
Edwin W H Jager
Ana I Teixeira

Stem cell function is regulated by intrinsic as well as microenvironmental factors, including chemic...

Control of Neural Stem Cell Survival by Electroactive Polymer Substrates

Lundin, Vanessa
Herland, Anna
Berggren, Magnus
Jager, Edwin
Teixeira, Ana I

January 2011

Stem cell function is regulated by intrinsic as well as microenvironmental factors, including chemic...

Morphology and electrostatics play active role in neuronal differentiation processes on flexible conducting substrates

Srivastava, Nishit
James, Jackson
Narayan, KS

January 2014

This commentary discusses and summarizes the key highlights of our recently reported work entitled `...

Electroactive Surfaces Based on Conducting Polymers for Controlling Cell Adhesion, Signaling, and Proliferation

Jager, Edwin
Bolin, Maria
Svennersten, Karl
Wang, X
Richter-Dahlfors, Agneta
Berggren, Magnus

January 2009

We report on a variety of electroactive surfaces for the control of in vitro cell adhesion, prolifer...

Electrochemical modulation of epithelia formation using conducting polymers

Svennersten, Karl
Bolin, Maria H.
Jager, Edwin W.H.
Berggren, Magnus
Richter-Dahlfors, Agneta

January 2009

Conducting polymers are soft, flexible materials, exhibiting material properties that can be reversi...

Electrical control of cell density and morphology on conducting polymer surfaces

Wan, AMD
Brooks, DJ
Fischbach, C
Malliaras, GG
,

January 2009

One of the main goals of bioelectronics research is to develop an understanding of the interface bet...

Nano-fiber scaffold electrodes based on PEDOT for cell stimulation

Bolin, Maria
Svennersten, Karl
Wang, Xiangjun
Chronakis, Ioannis S
Richter-Dahlfors, Agneta
Jager, Edwin
Berggren, Magnus

January 2009

Electronically conductive and electrochemically active 3D-scaffolds based on electrospun poly(ethyle...

Electro-responsive polymer-based platforms for electrostimulation of cells

Kanaan, Akel Ferreira
Piedade, Ana Paula

January 2022

Tissue engineering is a fascinating branch of science that aims to develop strategies to respond to ...

Topographical and Electrical Stimulation of Neuronal Cells through Microwrinkled Conducting Polymer Biointerfaces

Bonisoli A.
Marino A.
Ciofani G.
Greco F.

January 2017

The development of smart biointerfaces combining multiple functions is crucial for triggering a vari...

Directing Stem Cell Differentiation via Electrochemical Reversible Switching between Nanotubes and Nanotips of Polypyrrole Array

Wei, Yan
Mo, Xiaoju
Zhang, Pengchao
Li, Yingying
Liao, Jingwen
Li, Yongjun
Zhang, Jinxing
Ning, Chengyun
Wang, Shutao
Deng, Xuliang
Jiang, Lei

January 2017

Control of stem cell behaviors at solid biointerfaces is critical for stem-cell-based regeneration a...

monitoring of cell adhesion and proliferation

Oyman, G
Geyik, C
Ayranci, R
Ak, M
Demirkol, DO
Timur, S
Coskunol, H

January 2014

Here, we report the electropolymerization of 3-(2,5-di(thiophen-2-yl)-1H-pyrrol-1-yl)aniline monomer...

Electroconductive neural interfaces for neural tissue applications

Lee, Jae Young, 1974-

October 2010

textCreating effective cellular interfaces that can provide specific cellular signals is important f...

Peptide-modified conducting polymer as a biofunctional surface: monitoring of cell adhesion and proliferation

Oyman, Gizem
Geyik, Caner
Ayranci, Rukiye
Ak, Metin
Demirkol, Dilek Odaci
Timur, Suna
Coskunol, Hakan

January 2014

WOS: 000344468800006Here, we report the electropolymerization of 3-(2,5-di(thiophen-2-yl)-1H-pyrrol-...

3D conducting polymer platforms for electrical control of protein conformation and cellular functions

Wan, AMD
Inal, S
Williams, T
Wang, K
Leleux, P
Estevez, L
Giannelis, EP
Fischbach, C
Malliaras, GG
Gourdon, D
,

July 2015

We report the fabrication of three dimensional (3D) macroporous scaffolds made from poly(3,4-ethylen...

Enhanced wireless cell stimulation using soft and improved bipolar electroactive conducting polymer templates

Qin, Chunyan
Yue, Zhilian
Huang, Xu Feng
Forster, Robert J.
Wallace, Gordon G.
Chen, Jun

June 2022

Bipolar electrostimulation (BPES) invoked using organic conducting polymers (CPs) has provided a uni...

Control of neural stem cell survival by electroactive polymer substrates.

Vanessa Lundin
Anna Herland
Magnus Berggren
Edwin W H Jager
Ana I Teixeira

Stem cell function is regulated by intrinsic as well as microenvironmental factors, including chemic...

Control of Neural Stem Cell Survival by Electroactive Polymer Substrates

Lundin, Vanessa
Herland, Anna
Berggren, Magnus
Jager, Edwin
Teixeira, Ana I

January 2011

Stem cell function is regulated by intrinsic as well as microenvironmental factors, including chemic...

Morphology and electrostatics play active role in neuronal differentiation processes on flexible conducting substrates

Srivastava, Nishit
James, Jackson
Narayan, KS

January 2014

This commentary discusses and summarizes the key highlights of our recently reported work entitled `...

Electroactive Surfaces Based on Conducting Polymers for Controlling Cell Adhesion, Signaling, and Proliferation

Jager, Edwin
Bolin, Maria
Svennersten, Karl
Wang, X
Richter-Dahlfors, Agneta
Berggren, Magnus

January 2009

We report on a variety of electroactive surfaces for the control of in vitro cell adhesion, prolifer...

Electrochemical modulation of epithelia formation using conducting polymers

Svennersten, Karl
Bolin, Maria H.
Jager, Edwin W.H.
Berggren, Magnus
Richter-Dahlfors, Agneta

January 2009

Conducting polymers are soft, flexible materials, exhibiting material properties that can be reversi...

Electrical control of cell density and morphology on conducting polymer surfaces

Wan, AMD
Brooks, DJ
Fischbach, C
Malliaras, GG
,

January 2009

One of the main goals of bioelectronics research is to develop an understanding of the interface bet...

Nano-fiber scaffold electrodes based on PEDOT for cell stimulation

Bolin, Maria
Svennersten, Karl
Wang, Xiangjun
Chronakis, Ioannis S
Richter-Dahlfors, Agneta
Jager, Edwin
Berggren, Magnus

January 2009

Electronically conductive and electrochemically active 3D-scaffolds based on electrospun poly(ethyle...

Electro-responsive polymer-based platforms for electrostimulation of cells

Kanaan, Akel Ferreira
Piedade, Ana Paula

January 2022

Tissue engineering is a fascinating branch of science that aims to develop strategies to respond to ...

Topographical and Electrical Stimulation of Neuronal Cells through Microwrinkled Conducting Polymer Biointerfaces

Bonisoli A.
Marino A.
Ciofani G.
Greco F.

January 2017

The development of smart biointerfaces combining multiple functions is crucial for triggering a vari...

Directing Stem Cell Differentiation via Electrochemical Reversible Switching between Nanotubes and Nanotips of Polypyrrole Array

Wei, Yan
Mo, Xiaoju
Zhang, Pengchao
Li, Yingying
Liao, Jingwen
Li, Yongjun
Zhang, Jinxing
Ning, Chengyun
Wang, Shutao
Deng, Xuliang
Jiang, Lei

January 2017

Control of stem cell behaviors at solid biointerfaces is critical for stem-cell-based regeneration a...

monitoring of cell adhesion and proliferation

Oyman, G
Geyik, C
Ayranci, R
Ak, M
Demirkol, DO
Timur, S
Coskunol, H

January 2014

Here, we report the electropolymerization of 3-(2,5-di(thiophen-2-yl)-1H-pyrrol-1-yl)aniline monomer...

Electroconductive neural interfaces for neural tissue applications

Lee, Jae Young, 1974-

October 2010

textCreating effective cellular interfaces that can provide specific cellular signals is important f...

Peptide-modified conducting polymer as a biofunctional surface: monitoring of cell adhesion and proliferation

Oyman, Gizem
Geyik, Caner
Ayranci, Rukiye
Ak, Metin
Demirkol, Dilek Odaci
Timur, Suna
Coskunol, Hakan

January 2014

WOS: 000344468800006Here, we report the electropolymerization of 3-(2,5-di(thiophen-2-yl)-1H-pyrrol-...

3D conducting polymer platforms for electrical control of protein conformation and cellular functions

Wan, AMD
Inal, S
Williams, T
Wang, K
Leleux, P
Estevez, L
Giannelis, EP
Fischbach, C
Malliaras, GG
Gourdon, D
,

July 2015

We report the fabrication of three dimensional (3D) macroporous scaffolds made from poly(3,4-ethylen...

Enhanced wireless cell stimulation using soft and improved bipolar electroactive conducting polymer templates

Qin, Chunyan
Yue, Zhilian
Huang, Xu Feng
Forster, Robert J.
Wallace, Gordon G.
Chen, Jun

June 2022

Bipolar electrostimulation (BPES) invoked using organic conducting polymers (CPs) has provided a uni...

Control of neural stem cell survival by electroactive polymer substrates.

Vanessa Lundin
Anna Herland
Magnus Berggren
Edwin W H Jager
Ana I Teixeira

Stem cell function is regulated by intrinsic as well as microenvironmental factors, including chemic...

Control of Neural Stem Cell Survival by Electroactive Polymer Substrates

Lundin, Vanessa
Herland, Anna
Berggren, Magnus
Jager, Edwin
Teixeira, Ana I

January 2011

Stem cell function is regulated by intrinsic as well as microenvironmental factors, including chemic...

Morphology and electrostatics play active role in neuronal differentiation processes on flexible conducting substrates

Srivastava, Nishit
James, Jackson
Narayan, KS

January 2014

This commentary discusses and summarizes the key highlights of our recently reported work entitled `...

Electroactive Surfaces Based on Conducting Polymers for Controlling Cell Adhesion, Signaling, and Proliferation

Abstract

Extracted data

Electroactive Surfaces Based on Conducting Polymers for Controlling Cell Adhesion, Signaling, and Proliferation

Abstract

Extracted data

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