euro-chemistry-2017-scientifictracks-abstracts

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Volume 8, Issue 2 (Suppl)

Chem Sci J 2017

ISSN: 2150-3494 CSJ, an open access journal

Euro Chemistry 2017

May 11-13, 2017

May 11-13, 2017 Barcelona, Spain

European Chemistry Congress

On the VUV luminescence and degradation of UV-C emitting phosphors

Mike Broxtermann

and

Thomas Justel

1,2

Munster University of Applied Sciences, Germany

enon comprising excimer discharge lamps represent themselves as an efficient source of vacuum ultraviolet radiation, which

may find an application, e.g. for disinfection purposes by the use of suitable photoluminescent conversion materials.

1,2

Among these conversion phosphors there are some doped yttrium ortho-phosphates, as well as respective lutetium or lanthanum

containing derivatives, exhibiting promising properties.

3,4

A common design for phosphor converted Xe excimer lamps consists of

a discharge vessel made from quartz glass, which is coated with a thin layer of phosphor particles (around 10 - 50 µm) on the inner

side. Experimental results demonstrate that all of the above mentioned PO

-based phosphor materials exhibit a distinct degradation

resulting in a mayor loss of lamp UV radiation output over just a few days of operation time. Recovery of aged phosphor material

enabled the investigation of that performance loss which could be traced back to a strong new absorption in the UV range. This is

accompanied by well fitting excitation bands spreading over the UV spectral range as well as a corresponding broad band emission

peaking in the deep red. Immersing analysis of the undoped phosphate compounds YPO

, LuPO

and LaPO

evidenced, that these

aging effects find their origin within the phosphate host material itself being directly exposed to the plasma discharge, most probably

to the existence of phosphorous III in [Ne]3s

electron configuration. Further work is thus conducted on the understanding as well as

on the obviation of phosphor aging throughout the application of protective particle coatings.

1 U. Kogelschatz, Dielectric-barrier Discharges: Their History, Discharge Physics, and Industrial Applications,

Plasma Chem. Plasma

Process

. 2003, 23, p. 1

2 Patent US 6398970 B1

3 T. JUstel, P. Huppert, W. Mayr, D.U. Wiechert, Temperature-dependent spectra of YPO4:Me (Me = Ce, Pr, Nd, Bi),

J. Lumin

. 2004,

106, p. 225

4 Patent US20140099798 A1

Biography

Mike Broxtermann has completed his bachelor and master studies at the Ruhr-University Bochum, Germany. Afterwards he has started his PhD studies on the

analysis and improvement of UV emitting phosphor converted Xe-excimer lamps at the MUnster University of Applied Sciences. The respective research project

“Hg free UV Radiation Sources for Energy Efficient Water Treatment” is supported by the German federal ministry of education and research (BMBF). Mike

Broxtermann himself is an awardee of the German foundation economics (sdw).

mike.b@fh-muenster.de

Mike Broxtermann et al., Chem Sci J 2017, 8:2(Suppl)

http://dx.doi.org/10.4172/2150-3494-C1-008