Difference between revisions of "Sidahmed Abayzeed"

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<span style="color:#0000FF">'''Contact'''</span>
 
<span style="color:#0000FF">'''Contact'''</span>
  
eexsa46@nottingham.ac.uk
+
sidahmed.abayzeed@nottingham.ac.uk
  
 
0115 (84) 68848
 
0115 (84) 68848
  
B18, Life Sciences Building
+
B10, Life Sciences Building
  
 
University Park
 
University Park
Line 27: Line 19:
 
<span style="color:#0000FF">'''Biography'''</span>
 
<span style="color:#0000FF">'''Biography'''</span>
  
Sidahmed recieved a first-class BEng(Hons) in Biomedical Engineering from Sudan University of Science and Technology, Khartoum, Sudan in 2008. He obtained MSc in Electronic Engineering from Sudan Academy of Sciences, Khartoum, Sudan in 2011. He also obtained MSc in Bioengineering: Imaging and Sensing with distinction from the University of Nottingham, UK, in 2012. Since then, he is pursuing a PhD in Electrical and Electronic Engineering within the Applied Optics group and IBIOS, researching the voltage sensitivity of Surface Plasmon Resonance for biological applications.
+
Sidahmed received a first-class BEng(Hons) in Biomedical Engineering from Sudan University of Science and Technology, Khartoum, Sudan in 2008. He obtained MSc in Electronic Engineering from Sudan Academy of Sciences, Khartoum, Sudan in 2011. He also obtained MSc in Bioengineering: Imaging and Sensing with distinction from the University of Nottingham, UK, in 2012 and immediately started PhD in Electrical and Electronic Engineering within the advanced Optics group. His PhD was directed at researching voltage sensitivity of Surface Plasmon Resonance systems for biological applications. In January 2016, he was awarded EPSRC Doctoral Prize at the University of Nottingham to develop advanced label-free technology for functional imaging of living cells.
 +
<br />
 +
 
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<span style="color:#0000FF">'''Research'''</span>
 +
 
 +
'''Plasmonic-based impedance micro-spectroscopy of living cells (2016 - 2018)''':The long-term goal of this fellowship is developing a novel high-resolution impedance micro-spectroscopy technique that is capable of ''imaging'' the electrical properties of biological samples in a similar way to microscopes that image the optical properties. Imaging these properties promises rich information on cell structure and function with applications in cell biology and drug testing. This project is directed at developing bespoke instruments for accurate measurements of impedance with sub-micron resolution.
 +
 
 +
'''Rapid detection of urinary tract infections using a portable surface plasmon resonance sensor''':This project aims to develop a compact and automated instrument for culture-free detection of bacteria in urine. The project addresses the need for developing tools to enable rapid diagnosis of infections. The delay in diagnosis leads to prescription of empirical broad spectrum antibiotics that contributes to the growing problem of antimicrobial resistance.
 +
 
 +
'''Sensing voltage dynamics with differential intensity surface plasmon resonance system (2012 - 2015)''':This project focused on designing and characterising highly-sensitive plasmonic sensors applied to label-free detection of voltage at the metal-electrolyte interface. These sensors enabled us to detect voltage pulses as small as 10mV on a millisecond timescale and with no fluorescent labels. The findings of this project pave the way for using this technology to record the electrical activity of excitable cells.
 +
 
 +
<span style="color:#0000FF">'''Awards'''</span>
 +
{|
 +
|align="center"|2015 || ''UoN/EPSRC'' || '''EPSRC Doctoral Prize''' || £56,826
 +
|-
 +
|align="center"|2016 || ''UoN/EPSRC'' || '''Smart pocket sensor for rapid diagnosis of urinary tract infections (UTIs)''' || £ 9,698
 +
|-
 +
|}
 +
 
 +
<span style="color:#0000FF">'''Publications'''</span>
 +
<bibtex>
 +
 
 +
@article{abayzeed2017Sensitive,
 +
  title={Sensitive detection of voltage transients using differential intensity surface plasmon resonance system},
 +
  author={Abayzeed, Sidahmed A and Smith, Richard J and Webb, Kevin F and Somekh, Michael G and See, Chung W},
 +
  journal={Optics Express},
 +
  volume={25},
 +
  pages={31552-31567},
 +
  year={2017},
 +
  publisher={OSA}
 +
}
 +
</bibtex>
 +
 
 +
<bibtex> @phdthesis{abayzeed2016sensing,
 +
  title={Sensing voltage dynamics with differential intensity surface plasmon resonance system},
 +
  author={Abayzeed, Sidahmed},
 +
  year={2016},
 +
  school={University of Nottingham}
 +
}
 +
</bibtex>
 +
 
 +
<bibtex>
 +
 
 +
@article{abayzeed2016responsivity,
 +
  title={Responsivity of the differential-intensity surface plasmon resonance instrument},
 +
  author={Abayzeed, Sidahmed A and Smith, Richard J and Webb, Kevin F and Somekh, Michael G and See, Chung W},
 +
  journal={Sensors and Actuators B: Chemical},
 +
  volume={235},
 +
  pages={627--635},
 +
  year={2016},
 +
  publisher={Elsevier}
 +
}
 +
</bibtex>
 +
 +
<span style="color:#0000FF">'''Activities'''</span>
 +
 
 +
* Reviewer  Applied Optics Express  OSA 2017
 +
* Reviewer  Biomedical Optics Express OSA  2017
 +
* Reviewer  Photonics Research  OSA 2017
 +
* Reviewer  Optics and Laser technology  ScienceDirect 2017

Latest revision as of 11:31, 11 December 2017


Contact

sidahmed.abayzeed@nottingham.ac.uk

0115 (84) 68848

B10, Life Sciences Building

University Park

Nottingham

NG7 2RD

UK

Biography

Sidahmed received a first-class BEng(Hons) in Biomedical Engineering from Sudan University of Science and Technology, Khartoum, Sudan in 2008. He obtained MSc in Electronic Engineering from Sudan Academy of Sciences, Khartoum, Sudan in 2011. He also obtained MSc in Bioengineering: Imaging and Sensing with distinction from the University of Nottingham, UK, in 2012 and immediately started PhD in Electrical and Electronic Engineering within the advanced Optics group. His PhD was directed at researching voltage sensitivity of Surface Plasmon Resonance systems for biological applications. In January 2016, he was awarded EPSRC Doctoral Prize at the University of Nottingham to develop advanced label-free technology for functional imaging of living cells.

Research

Plasmonic-based impedance micro-spectroscopy of living cells (2016 - 2018):The long-term goal of this fellowship is developing a novel high-resolution impedance micro-spectroscopy technique that is capable of imaging the electrical properties of biological samples in a similar way to microscopes that image the optical properties. Imaging these properties promises rich information on cell structure and function with applications in cell biology and drug testing. This project is directed at developing bespoke instruments for accurate measurements of impedance with sub-micron resolution.

Rapid detection of urinary tract infections using a portable surface plasmon resonance sensor:This project aims to develop a compact and automated instrument for culture-free detection of bacteria in urine. The project addresses the need for developing tools to enable rapid diagnosis of infections. The delay in diagnosis leads to prescription of empirical broad spectrum antibiotics that contributes to the growing problem of antimicrobial resistance.

Sensing voltage dynamics with differential intensity surface plasmon resonance system (2012 - 2015):This project focused on designing and characterising highly-sensitive plasmonic sensors applied to label-free detection of voltage at the metal-electrolyte interface. These sensors enabled us to detect voltage pulses as small as 10mV on a millisecond timescale and with no fluorescent labels. The findings of this project pave the way for using this technology to record the electrical activity of excitable cells.

Awards

2015 UoN/EPSRC EPSRC Doctoral Prize £56,826
2016 UoN/EPSRC Smart pocket sensor for rapid diagnosis of urinary tract infections (UTIs) £ 9,698

Publications

Abayzeed, Sidahmed A, Smith, Richard J, Webb, Kevin F, Somekh, Michael G, See, Chung W - Sensitive detection of voltage transients using differential intensity surface plasmon resonance system
Optics Express 25:31552-31567,2017
Bibtex
Author : Abayzeed, Sidahmed A, Smith, Richard J, Webb, Kevin F, Somekh, Michael G, See, Chung W
Title : Sensitive detection of voltage transients using differential intensity surface plasmon resonance system
In : Optics Express -
Address :
Date : 2017

Abayzeed, Sidahmed - Sensing voltage dynamics with differential intensity surface plasmon resonance system
Ph.D. Thesis, University of Nottingham ,2016
Bibtex
Author : Abayzeed, Sidahmed
Title : Sensing voltage dynamics with differential intensity surface plasmon resonance system
In : Ph.D. Thesis, University of Nottingham -
Address :
Date : 2016

Abayzeed, Sidahmed A, Smith, Richard J, Webb, Kevin F, Somekh, Michael G, See, Chung W - Responsivity of the differential-intensity surface plasmon resonance instrument
Sensors and Actuators B: Chemical 235:627--635,2016
Bibtex
Author : Abayzeed, Sidahmed A, Smith, Richard J, Webb, Kevin F, Somekh, Michael G, See, Chung W
Title : Responsivity of the differential-intensity surface plasmon resonance instrument
In : Sensors and Actuators B: Chemical -
Address :
Date : 2016

Activities

  • Reviewer Applied Optics Express OSA 2017
  • Reviewer Biomedical Optics Express OSA 2017
  • Reviewer Photonics Research OSA 2017
  • Reviewer Optics and Laser technology ScienceDirect 2017