45. “A Study of the Plan and Performance Evaluation Method of an 8-m(3) Chamber Using Ventilation Experiments and Numerical Analyses”

       International journal of environmental research and public health,  19(20), 2022. 11, SCI(E)

44. "Light shelf development using folding technology and photovoltaic modules to increase energy efficiency in building"

       Buildings, 12(1), 2022. 01, SCE(E)

43. “Analysis on the Exhaust Air Recirculation of the Ventilation System in Multi-Story Building”

       Applied Sciences, 11(10), 2021. 05, SCI(E)

42. “Distribution Characteristics of Indoor PM2.5 Concentration Based on the Water Type and Humidification Method”

       International journal of environmental research and public health, 17(22), 8638, 2020. 11, SCI(E)

41. “Evaluation on Air Purifier’s Performance in Reducing the Concentration of Fine Particulate Matter for Occupants according to

       its Operation Methods”

       International Journal of Environmental Research and Public Health, 17(15), 2020. 08, SCI(E)

40. “Bake-Out Strategy Considering Energy Consumption for Improvement of Indoor Air Quality in Floor Heating Environments”

       International journal of environmental research and public health, 15(12), 2720, 2018. 12, SCI(E)

39. “Development of Window-Mounted Air Cap Roller Module”

       Energies, 11(7), 2018. 07, SCI(E)

38. “Development and Performance Evaluation of Light Shelves Using Width-adjustable Reflectors”

       Advances in Civil Engineering, 9(2018), 2018. 04, SCI(E)

37. “Examination of Environmental Factors Influencing the Emission Rates of Semivolatile Organic Compounds”

       Advances in Civil Engineering, 9(2018), 2018. 03, SCI(E)

36. “A preliminary study on the performance of an awning system with a built-in light shelf”

       Energy and Buildings, 131, 255-263, 2018. 03, SCI(E)

35. “Analysis of Air-Side Economizers in Terms of Cooling-Energy Performance in a Data Center Considering Exhaust Air

       Recirculation”

       Energies, 11(2), 444, 2018. 02, SCI(E)

34. “Development of a detachable window aircap module for energy saving”

       Energy and Buildings, 158, 1640-1647, 2018. 01, SCI(E)

33. ” Evaluation of a light shelf based on energy consumption for lighting and air conditioning”

       Indoor and Built Environment. 2017. 07, SCI(E)

32. “Effectiveness of a perforated light shelf for energy saving”

       Energy and Buildings, 144(2017), 144-151, 2017. 03, SCI(E)

31. “Study on movable light-shelf system with location-awareness technology for lighting energy saving”

       Indoor and Built Environment, 26(6), 796-812. 2016. 07, SCI(E)

30. “Optimum Installation of Sorptive Building Materials Using Contribution Ratio of Pollution Source for Improvement of Indoor

       Air Quality”

       International journal of environmental research and public health, 13(4), 396, 2016. 05, SCI(E)

29. “Daylighting performance improvement of a light-shelf using diffused reflection”

       Indoor and Built Environment, 26(5), 717-726. 2016. 02, SCI(E)

28. “Study on the system design of a solar assisted ground heat pump system using dynamic simulation”

       Energies, 9(4), 291, 2016. 02, SCI(E)

27. “A study on the application of sorptive building materials to reduce the concentration and volume of contaminants inhaled

       by occupants in office areas”

       Energy and Buildings, 98, 10-18. 2015. 07, SCI(E)

26. “Optimization of the HVAC system design to minimize primary energy demand”

       Energy and Buildings, 76, 102-108. 2014. 06, SCI(E)

25. “Assessment of the economic performance of vacuum insulation panels for housing projects”

       Energy and Buildings, 70(1), 45-51. 2014. 02, SCI(E)

24. “Measurement of 2-ethyl-1-hexanol emitted from flooring materials and adhesives”

       Journal of Adhesion Science and Technology, 27(5-6), 659-670, 2013. 03, SCI

23. “Influence of water content in sub-flooring materials using adhesive on chemical compounds emission”

       Journal of Adhesion Science and Technology, 27(5-6), 648-658, 2013. 03, SCI

22. “Control of emission rates of chemical compounds emitted by controlling their mass transfer coefficients on the surface

       of the tested building material”

       Journal of Adhesion Science and Technology, 27(5-6), 610-619, 2013. 03, SCI

21. “Long/short-term performance test for evaluating the reduction of indoor formaldehyde using sorptive building materials”

       Indoor and built environment, 22(1), 52-60. 2013. 02, SCI(E)

20. “Measurements of Formaldehyde and TVOC Emission from Paints and Coating Materials using Small Chamber Method

       for Building Composites”

       Journal of Wuhan University of Technology-Mater. Sci. Ed., 27(1). 120-125. 2012. 02, SCI(E)

19. “Research on the Enhancement of Escape Safety of Small Nursing Homes”

       Journal of Asian Architecture and Building Engineering, 10(1), 271-278. 2011. 05, SCI(E)

18. “Influence of environmental factors on performance of sorptive building materials”

       Indoor and Built Environment, Vol.19, Issue 4, 413-421. 2010. 08, SCI(E)

17. “Emission behavior of formaldehyde and TVOC from engineered flooring in under heating and air circulation systems”

       Building and Environment, Vol.45, Issue 8, 1826-1833. 2010. 08, SCI(E)

16. “Evaluation of odorous compounds emitted from building materials using gas chromatography-olfactometry”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.650, 339-345, 2010. 04

15. “Evaluation of the Convective Heat Transfer Coefficient of the Human Body Using the Wind Tunnel and Thermal Manikin”

       Journal of Asian Architecture and Building Engineering, Vol. 8, No.2, 2009. 11 , SCI(E)

14. “Study on emission of decomposed chemicals of esters contained in PVC flooring and adhesive”

       Building and Environment, Vol.44, Issue 7, 1337-1342. 2009. 07, SCI(E)

13. “Numerical analysis on decreasing effect of pollutant concentration with absorptive building material in standard house”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.639, 613-620, 2009. 05

12. “Measurement of chemical compounds emitted from the flooring constructed various of PVC floorings ; Emission characteristic

       of 2-ethyl-1-hexanol generated by chemical reaction-“

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.636, 185-191, 2009. 02

11. “Performance Test for Evaluating the Reduction of VOCs in Rooms and Evaluating the Lifetime of Sorptive Building Materials”

       Building and Environment, Vol.44, Issue 1, 207-215. 2009, 01, SCI(E)

10. “A Preliminary Study of a Method to Measure SVOCs Emitted from Electrical Appliances”

       Journal of Asian Architecture and Building Engineering, Vol. 7, No. 2, 2008. 11, SCI(E)

09. “Biosensing of an Indoor Volatile Organic Compound on the Basis of Fungal Growth”

       CHEMOSPHERE, Vol.72, Issue 9, 1286-1291. 2008, 07, SCI(E)

08. “A New Way to Reduce Pollutants? Adsorptive Materials and VOCs”

       American Society of Heating, Refrigerating and Air-Conditioning Engineers IAQ APPLICATIOS, Vol 8, No.3, 9-12, 2007. 08

07. “Study on Indoor VOCs Concentration Reduction Performance of the Activated Carbon and Sorptive Building Materials:

       Evaluation on parameters influencing to the toluene concentration reduction performance”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.628, 751-758, 2008. 06

06. “Study on Chemical Compounds Decreasing Effect of Sorptive building Materials of Reducing Indoor Air Pollution:

       Numerical analysis on decreasing effect of pollutant concentration with absorptive building material in full-size resident model”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.620, 37-42, 2007. 10

05. “Measurement of Reaction Product Emitted from Flooring Material: Influence of adhesives for flooring on 2-ethyl-1-hexanol

       emission”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.624, 215-220, 2008. 02

04. “Development of Test Method about Suppressive Effect of Adsorptive Building Materials for Formaldehyde Emitting Material”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.596, 45-51, 2005. 10

03. “Study on Large Test Chamber Method for Measuring Emission Rate of Aldehydes and Volatile Organic Compounds (VOCs)

       Released from Furniture”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.593, 41-48, 2005. 07

02. “Study on Emission of Decomposed Chemicals of Plasticizer Contained in PVC Flooring: Influence of vapor or liquid water

       content in sub-floor material on VOCs emission”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.617, 47-52, 2007. 07

01. “Measurements of Adsorption Isotherm of Various Building and Adsorption Materials”

       Journal of environmental engineering, Transactions of Architectural Institute of Japan, NO.595, 49-55, 2005. 09