Case Study iSMART Research Group

Case Study: iSMART Research Group and Woollam IR-Vase II

Case Study iSMART Research Group

Quantum Design UK and Ireland (QDUKI), in collaboration with the Medical Technologies Innovation Facility (MTIF) and Nottingham Trent University are proud to present this case study from the iSMART (innovation in Surfaces, Materials and Related Technologies) research group, led by Dr. Nikolaos Kalfagiannis and co-workers from Université de Poitiers, Sheffield Hallam University and the University of Nottingham.

The iSMART group have focused their research around the optical and electronic properties of materials and thin films for nano-photonic and electronic applications, specifically metal-oxides. QDUKI supplied the J A Woollam Infrared Variable Angle Spectroscopic Ellipsometer (IR VASE-II) capable of providing the optical constants of materials in the extended spectral range from 1.6 – 40 microns. Indeed, QDUKI and MTIF have entered into a partnership to provide access to potential users to view and measure trial samples on, the J. A. Woollam IR VASE II Spectroscopic Ellipsometer on an ad hoc contract basis.


Case Study

In the iSMART (innovation in Surfaces, MAterials and Related Technologies) research group (embedded within the Medical Technologies Innovation Facility – MTIF, based in Nottingham, UK) we focus our research interest around the optical and electronic properties of materials and thin films for nano-photonic and electronic applications. One such example of a family of materials related to both applications, mentioned above, are the metal-oxides. Metal oxides have emerged as promising material candidates in various electronic and optoelectronic applications offering unique advantages such as high mobility, wide bandgap (transparent in the visible range), and the ability to be controllably doped. Importantly, in iSMART we have developed routes to different scalable deposition techniques for such materials (from wet chemistry methods to vacuum deposition techniques).

Fig. 1 The J A Woollam Infrared Variable Angle Spectroscopic Ellipsometer Mark II at MTIF

Spectroscopic ellipsometry (SE) is a highly sophisticated and non-destructive metrology tool for determining the optical constants of materials. iSMART is equipped with a J. A. Woollam Infrared Variable Angle Spectroscopic Ellipsometer (IR VASE II), capable of providing the optical constants of materials in the extended spectral range from 1.6 – 40 microns.

Only two ellipsometers of this type currently exist in the whole of the UK, with one such system being located at MTIF which is available for contract development work and academic partnership for all UK industry and any Research institutes. The IR VASE II was supplied by Quantum Design UK and Ireland Ltd. who are the official representatives of J. A. Woollam inc. Quantum Design UK and Ireland Ltd. and MTIF have entered into a partnership to provide access to potential users to view, and measure trial samples on, the J. A. Woollam IR VASE II Spectroscopic Ellipsometer on an ad hoc contract basis.

High Vacuum Deposition Chamber in MTIF

Our partnership with The University of Nottingham (contact person: Dr. Christopher Mellor) allows for this spectral range to be extended further, using a J.A. Woollam M-2000DI spectroscopic ellipsometer, to include the near infrared, visible and ultraviolet wavelengths (1.69 – 0.193 microns). This combined capability, offers one of the widest spectral ranges available world-wide (0.19 – 40 microns). By extracting the exact optical constants, we also enable the determination of material properties such as charge transport (mobility, doping concentration, resistivity), lattice vibration (phonon absorption) and band structure (via interband transitions and band gaps).

These fundamental properties of semiconducting materials are key parameters for opto-electronic applications. In a recent work, Dr. Nikolaos Kalfagiannis and co-workers from Université de Poitiers, Sheffield Hallam University and The University of Nottingham, employ SE in the extended spectral range (0.2 – 40 microns) and develop the methodology for the accurate determination of the free carrier transport properties of transparent conductive oxides and discriminate between the different scattering mechanisms (grain boundary scattering, inter-grain scattering and ionised impurity scattering) in an effort to clarify the conduction mechanisms of such materials and define their range of application.



As part of the partnership, QDUKI and MTIF co-hosted the 2021 Spectroscopic Ellipsometry Workshop, where Dr. Kalfagiannis gave several talks. This free of charge workshop is aimed at both experienced ellipsometry users as well as people new to ellipsometry and is an annual event. Click the link above to discover more.



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