Number of images - 7
Tables and charts - 4
Application of Display Technologies for Lighting. L&E 27 (3) 2019

Light & Engineering 27 (3)

Volume 27
Date of publication 08/06/2019
Pages 32-38

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Application of Display Technologies for Lighting. L&E 27 (3) 2019
Articles authors:
Viktor V. Belyaev, Donatien K. Nessemon, Andrei A. Belyaev

Viktor V. Belyaev, Prof., Dr. of Technical Science, graduated from MFTI with specialty in Automation and Electronics in 1974. At present, he is a Head of the Theoretical Physics Chair of MGOU and Professor of Mechanics and Mechatronics Department of the RUDN Engineering Academy. Fellow of the Society for Information Displays (SID)

Donatien K. Nessemon, a translator in the field of professional communication (French and Russian languages). In 2012, Graduated from the RUDN Foreign Languages Institute

Andrei A. Belyaev, environmentalist, graduated from MGOU with specialty in environmental geology in 2015. Engineer of the Education and Research Laboratory for Theoretical and Applied Nanotechnology of MGOU

The article is devoted to contemporary overview of development of a number of display technologies, which have been applied or may be applied for creation of new prospective light engineering solutions. The emphasis is on OLED-based technologies and liquid crystalsbased technologies. Examples of their application in automotive industry and architecture are given with consideration of various economic indicators and hygienic and usability limitations.
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2. Usov, Nicolai N. Prospective Use of Organic Light Emission Diodes for Information Displays and for Illumination //Light & Engineering Journal, 2012, Vol.20, #1, pp.9-23.
3. Hack, M., Weaver, M. S., Brown J.J. Status and Opportunities for Phosphorescent OLED Lighting / SID Symposium Digest of Technical Papers, 2017, pp. 187-190.
4. Nagata A., Mitsui S., Iwamatsu N., Suzuki A., Kubota R., Hiraga A., Yamamoto N., Takemoto N., Tsujimura T. The УTRUE VALUEФ of Flexible OLED - One and Only Design and Experience / Ibid, pp. 691-694.
5. Papamichael K. Adaptive Lighting for EnergyEfficient Comfort and Wellbeing / Ibid, pp. 306-309.
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7. Dong Y. Solution Processable Luminescent Nanomaterials for Display, Lighting and Beyond / SID Symposium Digest of Technical Papers, 2017, pp. 272-275. 8. Dong Y. et al. / Ibid, pp. 270-273.
9. Lee D., Spindler J., Kondakova M., Pleten A., Boroson M. Amber OLED Lighting Technology Development and Application / Ibid, pp. 91-94.
10. Guschl P.C., Wang X., Weinstein M.A. InkJet Printing of HighIndex Zirconia Nanocomposite Materials / Ibid, pp. 942-944.
11. ReinertWeiss C.J., Baur H., Nusayer S.A.A., Duhme D., Fruеhauf N. Development of active matrix LCD for use in highresolution adaptive headlight // Journal of the SID, 2017, Vol. 25, No. 2.
12. BMBF (Bundesministerium fur Bildung und Forschung Germany), Announcement of the project УVolladaptive Lichtverteilung fur eine intelligente, effiziente und sichere Fahrzeugbeleuchtung (VoLiFa 2020)Ф. URL: beleuchtungled/intelligentebeleuchtung/ (reference date: 01.06.2018).
13. Jou J.H., Singh M., He Z.K., Su Y.T. Definition and Design of a Good Light / SID Symposium Digest of Technical Papers, 2017, pp.1812-1813.
14. GOST R IEC62741-2013 (IEC62471:2006) Lamps and lamp systems. Photobiological safety. 15. Figueiro M.G. Biological Effects of Light: Can Selfluminous Displays Play a Role? // Information Display, 2018, Vol. 34, No. 1, pp. 6-9.


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