Experience

CodiKoat

• United Kingdom
• Biotechnology Research
• 1 - 100 Employee

• Co-Founder and Director

  • Jun 2020 - Present

  Haverhill, England, United Kingdom



Cambridge Judge Business School

• United Kingdom
• Higher Education
• 300 - 400 Employee

• Accelerate Cambridge

  • Nov 2019 - Present

  Cambridge, United Kingdom



Enterpreneur

• International Affairs
• 500 - 600 Employee

• Director

  • Mar 2018 - Present

  Cambridge, United Kingdom Light Emitting Diodes, Photovoltaics, Functional Materials, Optoelectronics, Batteries



London & Partners

• Romania
• Real Estate
• 1 - 100 Employee

• Business Growth Programme

  • Jan 2021 - Mar 2021

  London, England, United Kingdom



AI4MD Limited

• United Kingdom
• Research

• Founder and Director

  • Oct 2019 - Jan 2021

  Cambridge, United Kingdom Right set of material selection is vital towards high performance/safety, and low cost devices such as batteries, LEDs and solar cells. In AI4MD, we aim to develop a general pipeline using AI in order to discover optimised set of materials which can address challenges on cost, safety and performance.



Entrepreneur First

• United Kingdom
• Venture Capital and Private Equity Principals
• 400 - 500 Employee

• EF LD14 Cohort Member

  • Apr 2020 - Jul 2020

  London, England, United Kingdom



University of Glasgow

• United Kingdom
• Higher Education
• 700 & Above Employee

• Visiting Research Fellow

  • Apr 2018 - Jan 2019

  Glasgow, United Kingdom School of Engineering, wearable electronics, Biosensors, Functional Materials

• Research Associate

  • Mar 2017 - Mar 2018

  Glasgow, United Kingdom Hydrogels, Functional materials, Field effect transistors, Photovoltaics



University of Cambridge

• United Kingdom
• Research Services
• 700 & Above Employee

• Visiting Research Fellow

  • Jan 2017 - Aug 2017

  Cambridge, United Kingdom Photovoltaics, Functional Materials, Optoelectronics

• Research Associate

  • Jan 2015 - Jan 2017

• PhD Marie-Curie researcher, Physics

  • Oct 2010 - Nov 2014

  Optoelectronic group, Cavendish laboratory, Cambridge, UK Hybrid nanostructures (metal oxides: polymer) which can have various applications in optoelectronics, energy generation and harvesting and sensors. Control of hybrid nanostructure growth in 10 nm length scale, ideal for photovoltaic applications, is proved to be difficult. Furthermore, metal oxide formation in low temperature can smooth path for cheap production of this materials with their wide range applications. My research focuses on a technique which can reliably form hybrid nanostructures… Show more Hybrid nanostructures (metal oxides: polymer) which can have various applications in optoelectronics, energy generation and harvesting and sensors. Control of hybrid nanostructure growth in 10 nm length scale, ideal for photovoltaic applications, is proved to be difficult. Furthermore, metal oxide formation in low temperature can smooth path for cheap production of this materials with their wide range applications. My research focuses on a technique which can reliably form hybrid nanostructures in 10 nm length scale at low temperature. Show less



Rijksuniversiteit Groningen

• Netherlands
• Higher Education
• 1 - 100 Employee

• Master Student

  • Sep 2008 - Sep 2010

  Groningen, Netherlands Course year: Core modules: Preparation of nanomaterial and devices Characterizations of Nanomaterial Fundamental and functional properties of nanomaterial Electives: Non-linear optics – polymer physics- physics of lasers – Device physics Paper assay: Charge transport in DNA Scientific presentation: “Piezoelectric metal oxide nanostructures for energy harvesting” Research year: The research are focused on electrical characterizations of polymer… Show more Course year: Core modules: Preparation of nanomaterial and devices Characterizations of Nanomaterial Fundamental and functional properties of nanomaterial Electives: Non-linear optics – polymer physics- physics of lasers – Device physics Paper assay: Charge transport in DNA Scientific presentation: “Piezoelectric metal oxide nanostructures for energy harvesting” Research year: The research are focused on electrical characterizations of polymer ferroelectric diodes. Measurements on remnant polarization of the blend showed linearly dependence of the polarization with semiconductor content. We also present studies of non-ferroelectric MIS-diodes with p-type and n-type semiconductors and investigate their ferroelectric polarization behavior. Show less