참고문헌 (19)

1. Choi, Y. J., Park, J. Y., Lee, S. J., Heo, N. I., & Kim, W. J. (2002). A fundamental study on the properties of NO $_X$ removal on cement mortar with TiO $_2$ powder as photocatalyst, Journal of The Architectural Institute of Korea Structure & Construction, 18(8), 43-50. 

2. Hong, S. C. (2006). The effect of SO $_2$ in flue gas on the SCR activity of V/TiO $_2$ , Journal of the Korean Industrial and Engineering Chemistry, 17(5), 490-497. 

3. Hong, S. J., & Lee, S. W. (2013). An experimental study for the construction of photocatalytic method concrete road structure, International Journal of Highway Engineering, 15(6), 1-9. 

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4. ISO 22197-1, 2007, Test method for air-purification performance of semiconducting photocatalytic materials-part 1: Removal of nitric oxide, International Standard. 

5. Japan Concrete Institute, Research Committee Report for the Establishment of Design and Construction Method for Porous Concrete, 2003. 

6. Korea Agency for Technology and Standards. (2019). Standard test method for sieve analysis of fine and coarse aggregates (KS F 2502:2019), Korea Standards Association. (in Korean) 

7. Korea Agency for Technology and Standards. (2019). Testing method for density and absorption of coarse aggregate (KS F 2503:2019), Korea Standards Association. (in Korean) 

8. Lee, B. Y. (2012). Effect of titanium dioxide nanoparticles on early age and long term properties of cementitious materials, Ph.D. Dissertation, Georgia Institute of Technology. 

9. Lee, J. U., Yang, K. H., & Mun, J. H. (2020). Fluidity and compressive strength properties of foamed concrete mixed with fly ash and ground granulated blast furnace slag, Journal of the Korea Concrete Institute, 32(2), 137-144. 

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10. Lee, J. T., Jeong, J. S., Yun, T. K., & Bae, J. Y. (2010). Photocatalytic activity of TiO $_2$ nanoparticles with different structure and morphology, Journal of Industrial and Engineering Chemistry, 14(1), 21-24. 

11. Lee, K. H., & Park, W. J. (2010). The removal properties of NOX with the photocatalystic (TiO2) and UV optical science reactions, Korea Academia-Industrial cooperation Society, 11(9), 3578-3582. 

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12. Lucas, S. S., Ferreira, V. M., & Aguiar, J. B. (2013). Incorporation of titanium dioxide nanoparticles in mortars-influence of microstructure in the hardened state properties and photocatalytic activity, Cement and Concrete Research, 43, 112-120. 

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13. Park, J. G., Lim, H. A., & Park, Y. K. (2019). Evaluation of nitrogen oxide removal characteristics using TiO $_2$ , Journal of the Korean Applied Science and Technology, 36(2), 668-675. 

14. Poon, C. S., & Cheung, E. (2007). NO removal efficiency of photocatalytic paving blocks prepared with recycled materials, Construction and Building Materials, 21(8), 1746-1753. 

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15. Seo, D. W., & Yun, T. S. (2016). Experimental study on capacity variation of paving materials with TiO $_2$ in wet condition, Journal of the Korean Geotechnical Society, 32(5), 49-55. 

16. Sim, J. I., & Yang, K. H. (2011). Mechanical properties of lightweight aggregate concrete according to the substitution rate of natural sand and maximum aggregate size, Journal of the Korea Concrete Institute, 23(5), 551-558. 

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17. Yang, W. H. (2001). An Experimental Study on the Properties of Foamed Concrete within Blast-Furnace Slag, Master Thesis, Konkuk University. 

18. Yoon, I. H. (2017). A study on the NO $_X$ reduction using the photocatalyst(TiO $_2$ ) block in the ambient, Master Thesis, The University of Seoul. 

19. Yoon, I. H., Lee, K. B., Kim, J. S., & Kim, S. D. (2017). A study on the estimation of NO $_X$ reduction in ambient by photocatalyst(TiO $_2$ ) block, Journal of the Korean Society of Urban Environment, 17(4), 433-443. 

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