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Conferences > OFS > 2018 > WF > WF70

Improved Fabrication of Polymeric Optical Fiber Tweezers for Single Cell Detection

Sandra M. Rodrigues, Joana S. Paiva, Rita S. R. Ribeiro, Olivier Soppera, and Pedro A. S. Jorge

Open Access Open Access

Abstract

A new fabrication method of polymeric optical fiber tweezers with a multi-mode tip is presented. Preliminary results show higher robustness, improved ability for 2D trapping and differentiation of particles based on back-scattering analysis.

© 2018 The Author(s)

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References

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  1. A. Ashkin Accelaration and trapping of particles by radiation pressure. Phys. Rev. Lett. 1970, 24, 156–159.
    [Crossref]
  2. A. Ashkin and J. M. Dziedzic Optical trapping and manipulation of viruses and bacteria. Science 1987, 225, 1517–1520.
    [Crossref]
  3. Min-Chen Zhong et al. Trapping red blood cells in living animals using optical tweezers. NComms 2013, 4:1768
  4. S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
    [Crossref]
  5. R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.
  6. R.S.R. Ribeiro et al., Optical Fiber Tweezers Fabricated by Guided Wave Photo-Polymerization. Photonics 2015, 2, 634–645.
    [Crossref]
  7. Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.
  8. J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
    [Crossref]
  9. R. Ribeiro, Optical Fiber tools for single cell trapping and manipulation Doctoral Thesis- University of Porto 2017.
  10. O. Soppera, S. R. Jradi, and J. Lougnot; Photopolymerization with microscale resolution: Influence of the phsysico-chemical and photonic parameters Journal of Polymer Science Part A: Polymer Chemistry 2008, 46.
    [Crossref]

2018 (1)

J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
[Crossref]

2017 (1)

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

2015 (2)

R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.

R.S.R. Ribeiro et al., Optical Fiber Tweezers Fabricated by Guided Wave Photo-Polymerization. Photonics 2015, 2, 634–645.
[Crossref]

2013 (1)

Min-Chen Zhong et al. Trapping red blood cells in living animals using optical tweezers. NComms 2013, 4:1768

2008 (1)

O. Soppera, S. R. Jradi, and J. Lougnot; Photopolymerization with microscale resolution: Influence of the phsysico-chemical and photonic parameters Journal of Polymer Science Part A: Polymer Chemistry 2008, 46.
[Crossref]

2006 (1)

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

1987 (1)

A. Ashkin and J. M. Dziedzic Optical trapping and manipulation of viruses and bacteria. Science 1987, 225, 1517–1520.
[Crossref]

1970 (1)

A. Ashkin Accelaration and trapping of particles by radiation pressure. Phys. Rev. Lett. 1970, 24, 156–159.
[Crossref]

Ashkin, A.

A. Ashkin and J. M. Dziedzic Optical trapping and manipulation of viruses and bacteria. Science 1987, 225, 1517–1520.
[Crossref]

A. Ashkin Accelaration and trapping of particles by radiation pressure. Phys. Rev. Lett. 1970, 24, 156–159.
[Crossref]

Cabrini, S.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Carpentiero, A.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Cojoc, D.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Cunha, J.P.S.

J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
[Crossref]

Dahal, P.

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

De Angelis, F.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Degiorgio, V.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Di Fabrizio, E.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Dziedzic, J. M.

A. Ashkin and J. M. Dziedzic Optical trapping and manipulation of viruses and bacteria. Science 1987, 225, 1517–1520.
[Crossref]

G. Oliva, A.

R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.

Guerreiro, A.

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.

Jorge, P.

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

Jorge, P.A.S.

J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
[Crossref]

Liberale, C.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Lougnot, J.

O. Soppera, S. R. Jradi, and J. Lougnot; Photopolymerization with microscale resolution: Influence of the phsysico-chemical and photonic parameters Journal of Polymer Science Part A: Polymer Chemistry 2008, 46.
[Crossref]

Mora, S.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

Paiva, J.S.

J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
[Crossref]

Prasciolu, M.

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

R. Jradi, S.

O. Soppera, S. R. Jradi, and J. Lougnot; Photopolymerization with microscale resolution: Influence of the phsysico-chemical and photonic parameters Journal of Polymer Science Part A: Polymer Chemistry 2008, 46.
[Crossref]

Ribeiro, R.

R. Ribeiro, Optical Fiber tools for single cell trapping and manipulation Doctoral Thesis- University of Porto 2017.

Ribeiro, R.S.R.

J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
[Crossref]

R.S.R. Ribeiro et al., Optical Fiber Tweezers Fabricated by Guided Wave Photo-Polymerization. Photonics 2015, 2, 634–645.
[Crossref]

Ribeiro, Rodrigues

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

Rita, S.

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

Rosa, C.C.

J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
[Crossref]

S. Jorge, P. A.

R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.

S. R. Ribeiro, R.

R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.

Soppera, O.

R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.

O. Soppera, S. R. Jradi, and J. Lougnot; Photopolymerization with microscale resolution: Influence of the phsysico-chemical and photonic parameters Journal of Polymer Science Part A: Polymer Chemistry 2008, 46.
[Crossref]

Viegas, J.

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

Zhong, Min-Chen

Min-Chen Zhong et al. Trapping red blood cells in living animals using optical tweezers. NComms 2013, 4:1768

Journal of Lightwave Technology (1)

R. S. R. Ribeiro, O. Soppera, A. G. Oliva, A. Guerreiro, and P. A. S. Jorge; New Trends on Optical fiber Tweezers. Journal of Lightwave Technology 2015, vol. 33, no. 16.

Journal of Polymer Science Part A: Polymer Chemistry (1)

O. Soppera, S. R. Jradi, and J. Lougnot; Photopolymerization with microscale resolution: Influence of the phsysico-chemical and photonic parameters Journal of Polymer Science Part A: Polymer Chemistry 2008, 46.
[Crossref]

Microelectron. Eng. (1)

S. Cabrini, C. Liberale, D. Cojoc, A. Carpentiero, M. Prasciolu, S. Mora, V. Degiorgio, F. De Angelis, and E. Di Fabrizio Axicon lens on optical fiber forming optical tweezers, made by focused ion beam milling Microelectron. Eng. 2006, vol. 83.
[Crossref]

NComms (1)

Min-Chen Zhong et al. Trapping red blood cells in living animals using optical tweezers. NComms 2013, 4:1768

Photonics (1)

R.S.R. Ribeiro et al., Optical Fiber Tweezers Fabricated by Guided Wave Photo-Polymerization. Photonics 2015, 2, 634–645.
[Crossref]

Phys. Rev. Lett. (1)

A. Ashkin Accelaration and trapping of particles by radiation pressure. Phys. Rev. Lett. 1970, 24, 156–159.
[Crossref]

Science (1)

A. Ashkin and J. M. Dziedzic Optical trapping and manipulation of viruses and bacteria. Science 1987, 225, 1517–1520.
[Crossref]

Scientific Reports (1)

Rodrigues Ribeiro, S. Rita, P. Dahal, A. Guerreiro, P. Jorge, and J. Viegas; Fabrication of Fresnel plates on optical fibers by FIB milling for optical trapping, manipulation and detection of single cells Scientific Reports 2017, 7.

Sensors (1)

J.S. Paiva, R.S.R. Ribeiro, J.P.S. Cunha, C.C. Rosa, and P.A.S. Jorge; Single Particle Differentiation through 2D Optical Fiber Trapping ans Back-Scattered Signal Statistical Analysis: an Exploratory Approach Sensors 2018, 18, 710.
[Crossref]

Other (1)

R. Ribeiro, Optical Fiber tools for single cell trapping and manipulation Doctoral Thesis- University of Porto 2017.

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