Tiwari, Divya Mullaney, Kevin James, Stephen Tatam, Ralph An ammonia sensor based on Lossy Mode Resonances on a tapered optical fibre coated with porphyrin-incorporated titanium dioxide Data presented in: <em>An ammonia sensor based on Lossy Mode Resonances on a tapered optical fibre coated with porphyrin-incorporated titanium dioxide</em>,  Tiwari et al Sensors and Actuators B 2016 - <div><a href="http://dx.doi.org/10.1016/j.snb.2016.11.092" target="doilink">http://dx.doi.org/10.1016/j.snb.2016.11.092</a><p>Figure3.xlsx - The transmission spectrum obtained in air and water from a typical 40 µm non-adiabatic (a), a 17 µm non-adiabatic (b),  a 40 µm adiabatic (c) and a 17 µm adiabatic (d) tapered optical fibre.<br></p><p>Figure 4.zip -  transmission spectra of a non-adiabatic tapered optical fibre of waist diameter 17 microns with time and thus increasing thickness of the TMPyP-TiO<sub>2</sub> coating. </p><p>Figure 5_6_7.zip - transmission spectrum of an adiabatic tapered optical fibre of waist diameter 17 microns with time and thus increasing thickness of the TMPyP-TiO<sub>2</sub> coating. </p><p>Figure 8 and 9.zip transmission spectra when an adiabatic tapered optical fibre of diameter 17 microns was immersed in differing concentrations of ammonia</p><p><br></p><p><br></p></div> loss mode resonance;optical fibre sensors;tapered optical fibres;ammonia sensing;titania;liquid phase deposition;Photonics and Electro-Optical Engineering (excl. Communications);Photonics, Optoelectronics and Optical Communications 2016-11-28
    https://cord.cranfield.ac.uk/articles/dataset/An_ammonia_sensor_based_on_Lossy_Mode_Resonances_on_a_tapered_optical_fibre_coated_with_porphyrin-incorporated_titanium_dioxide/4055010
10.17862/cranfield.rd.4055010.v1