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The Franzen group has pioneered research in plasmon resonance in conducting metal oxides. While the existence of a plasma absorption and surface plasmon polaritons is predicted by theory in all conductors, we have predicted and experimentally verified that that measurable optical resonances can be observed in a series of conducting metal oxides, including indium tin oxide (ITO), aluminum-doped zinc oxide (AZO), gallium-doped zinc oxide (GZO), and dysprosium-doped cadmium oxide. We have extended the measurement of plasmons to the mid-infrared beyond 10 microns in wavelength. Until the present almost all practical applications of surface plasmons have been made in the noble metals silver and gold. In 2006, we have described the basic physics and discovered that plasmons in degenerate semi-conductors such as ITO are free from interfering absorption bands such as those observed in silver and gold. We have recently shown novel hybrid plasmonic materials for the first type. These are composite layers of ITO and Au where the plasmon is actually resident in both layers. We have shown patterned surfaces are possible with conducting metal oxides. These are semi-conductor compatible
materials that have the ability to develop a new field of integrated plasmonics in semi-conductors.
materials that have the ability to develop a new field of integrated plasmonics in semi-conductors.
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Jessica M González-Delgado,Peter M Thompson,Witold Andrałojć,Zofia Gdaniec,Reza A Ghiladi,Stefan Franzen
The journal of physical chemistry. Bno. 14 (2024): 3383-3397
JOURNAL OF INORGANIC BIOCHEMISTRY (2024): 112473-112473
crossref(2021)
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