1. Lee, Y.-E., Lee, D., Sung J., You, I.*, Choi, D.*, and Lee, S.-J.* (2025). "Study of energy harvesting from conductive cement nanocomposites using a triboelectric nanogenerator"– Under review.

2. Kim, K., Hwang, I., Cho, J., Rodrigazo, S.A., You, I., and Yeon, J. (2025). " Sustainable asphalt maintenance: laboratory performance validation of high RAP-WMA "– Under review.

3. Na, Y., Choi, H.-J., You, I., and Yoo, D.-Y. (2025), "Performance evaluation of ultra-high-performance fiber-reinforced concrete incorporating waste OLED glass powder as a cement replacement." – Under review.

4. Seo, S., Lee, Y., Ju, Y.-K., You, I.*, and Zi, G. (2025.09.25), "Classification of phases in alkali-activated glass powder using machine learning with Gaussian mixture model", Steel and Composite Structures, 56(6), 499.

5. Lee, S.-J., Park, J.*, Sung, J., Kim, B.-K., Lee, H. Y., and You, I.* (2025.04), “Conductive grout with multiwalled carbon nanotubes for water cutoff self-monitoring in underground tunnels”, Nondestructive Testing and Evaluation – Published online.

6. Choi, W.-J.†, Yang, M.-K.†, You, I., Yoon, Y.-S.*, Ryu, G.-S., An, G.-H., Yoon, J.-S. (2025.02), "Discoloration characteristics of mechanochromic sensor in RGB and HSV color spaces and displacement prediction", Applied Science, 15(3), 1066.

7. Lee, S., You, I., Banthia, N., Yoo, D.-Y. (2024.09.20), “Effect of liquid crystal display glass powder to blast furnace slag ratio on the microstructure and mechanical properties of ultra-high-performance alkali-activated concrete”, Construction and Building Materials, 444, 13775.

8. Lee, Y., Seo, S., Doh, J.-H., You, I.*, and Zi, G.* (2024.08.15), “Calcium leaching resistance of cement composites with liquid-crystal display glass powder”, Journal of Building Engineering, 91, 109607.

9. You, I., Park, J.-J., Lee, N.*, Ryu, G.-S., Kwark, J.-W. (2024.05.01) “Use of electric arc furnace oxidizing slag (EOS) and electric arc furnace reducing slag (ERS) powders in cement pastes for CO2 sequestration”, Journal of Building Engineering, 84, 108631.

10. Ra, Y. †, Kim, J.†, You, I., Jang, S., Sumin Cho, S., Gwon, G., Kam, D., Lee, D., Ahmad, A., Karim, M.R., Lee, S.-J.*, and Choi, D.* (2024.04.01), “Direct Electrospinning of Reconstructable PVDF-TrFE Nanofibrous Mat onto Conductive Cement Nanocomposite for Triboelectricity-assisted Net Zero Energy Structure”, Chemical Engineering Journal, 485, 149662.

11. Yoo, D.-Y., Banthia, N., You, I.*, and Lee, S.-J.* (2024.04), “Recent developments in cementless ultra-high-performance concrete based on alkali-activated materials and industrial byproducts: A review”, Cement and Concrete Composites, 148, 105470.

12. Lee, S., Kim, G., Oh, T., You, I., Wang, X., and Yoo, D.-Y.* (2023.09.01), “The microstructure and mechanical properties of cementless ultra-high-performance geopolymer concrete considering geometrical properties of steel fiber”, Cement and Concrete Composites, 142, 105209.

13. Lee, Y., Seo, S., You, I., Yun, T., and Zi, G. * (2023.04.01), “Prediction of calcium leaching resistance of fly ash blended cement composites using artificial neural network,” Computers and Concrete, 31(4), pp. 315-325.

14. You, I., Seo, S., Kim, M., Lee, S.-J., Lee, N., Lee, Y*. and Yoo, D.-Y*. (2023.05), “ASR potential of alkali-activated soda-lime glass powder in the absence of calcium source,” Cement and Concrete Composites, 139, 105027.

15. You, I., Yoo, D.-Y., Lee, S.-J., Lee, Y. *and Zi, G.* (2023.03). "A combination of liquid display glass powder and slag in alkali-activated material." Construction and Building Materials, 369, 130527.

16. You, I., Lee, Y., Yoo, D.-Y.*, and Zi, G.* (2022.10.01), “Influence of liquid crystal display glass powder on the tensile performance of ultra-high-performance fiber-reinforced concrete,” Journal of Building Engineering, 104901.

17. Yoo, D.-Y., You, I*., Banthia, N., and Zi. G. (2022.07), “Utilization of liquid crystal display (LCD) glass waste in concrete: A review”, Cement and Concrete Composites, 130, 104542.

18. Yoo, D.-Y.*, Lee, S., K., You, I.*, Oh, T., Lee, Y. and Zi. G. (2022.05.09), “Development of strain-hardening geopolymer mortar based on liquid-crystal display (LCD) glass and blast furnace slag,” Construction and Building Materials, 331, 127334.

19. Jiarui, L., Doh, J.-H., Dinh, H., Dominic E., Zi, G., and You, I. (2022.04.25.). " Effect of Si/Al molar ratio on the strength behavior of geopolymer derived from various industrial waste: A current state of the art review." Construction and Building Materials, 329, 127134.

20. Lee, S.-J., You, I.*, Kim, S., Shin, H.-O. and Yoo, D.-Y*. (2022.01), “Self-sensing capacity of ultra-high-performance fiber-reinforced concrete containing conductive powders in tension”, Cement and Concrete Composites, 125, 104331.

21. Lee, Y., Kim, D. S., Jin, S. W., Lee, H., Jeong, Y. R., You, I., Zi, G. and Ha, J. S. (2022.01), “Stretchable Array of CdSe/ZnS Quantum-Dot Light Emitting Diodes for Visual Display of Bio-signals”, Chemical Engineering Journal, 427, 130858.

22. Ra. Y†, You, I.†, Kim, M., Jang, S., Cho, S., Kam, D., Lee, S.-J. and Choi, D. (2021.11), “Toward Smart Net Zero Energy Structures: Development of Cement-based Structural Energy Material for Contact Electrification driven Energy Harvesting and Storage”, Nano Energy, 89, Part A, 106389. †; Equal contribution 

23. Oh, T., You, I., Banthia, N. and Yoo, D.-Y. (2021.09), “Deposition of nanosilica particles on fiber surface for improving interfacial bond and tensile performances of ultra-high-performance fiber-reinforced concrete”, Composite Part B, 221(15), 109030.

24. You, I., Yoo, D.-Y., Doh, J.-H., and Zi, G. (2021.04), “Performance of glass-blended cement produced by intergrinding and separate grinding methods,” Cement and Concrete Composites, 118, 103937.

25. Yoo, D.-Y., You, I.*, and Zi, G. (2021.01.10), “Effects of waste liquid-crystal display glass powder and fiber geometry on the mechanical properties of ultra-high-performance concrete,” Construction and Building Materials, 266, 120938.

26. Yoo, D.-Y. and You, I.* (2021.01), “Liquid crystal display glass powder as a filler for enhancing steel fiber pullout resistance in ultra-high performance concrete”, Journal of Building Engineering, 33, 101846.

27. You, I., Lee, S.-J. Zi, G., and Lim. D. (2020.12.16), “Influence of Carbon Fiber Incorporation on Electrical Conductivity of Cement Composites” Applied Science, 10, 8993.

28. Lee, S.-J, Ahn, D., You, I., Yoo, D.-Y. and Kang, Y.-S. (2020.11), “Wireless cement-based sensor for self-monitoring of railway concrete infrastructures”, Automation in Construction, 119.

29. You, I., Yoo, D, David A. Lange and Zi, G. (2019.11.1), “Durability of Concrete Containing Liquid Crystal Display Glass Powder for Pavement.”, ACI Materials Journal, 116(6), pp. 87-94.

30. Yoo, D., Kim, S., Lee, J., You, I.*, and Lee, S.-J. (2019.08.30). "Implication of calcium sulfoaluminate-based expansive agent on tensile behavior of ultra-high-performance fiber-reinforced concrete", Construction Building Materials, 217(30), pp. 679-693.

31. Zhu, X., Zi, G., Sun, L. and You, I. (2019.04) “A simplified probabilistic model for the combined action of carbonation and chloride ingress”, Magazine of Concrete Research, 71(7), pp. 327-340.

32. Yoo, D., You, I., Zi, G. and Lee, S.-J. (2019.02). "Effects of carbon nanomaterial type and amount on self-sensing capacity of cement paste", Measurement, 134, pp.750-761.

33. Yoo, D., You, I., Youn, H. and Lee, S.-J. (2018.03.21) “Electrical and piezoresistive properties of cement composites with carbon nanomaterials”, Journal of Composites Materials, 52(24), pp. 3325-3340.

34. Yoo, D., You, I., and Lee, S.-J. (2018.02) “Electrical and piezoresistive sensing capacities of cement paste with multi-walled carbon nanotubes”, Archives of Civil and Mechanical Engineering 18(2), pp. 371-384.

35. Lee, S.-J., You, I., Zi, G. and Yoo, D.-Y., (2017.11.02) “Experimental investigation of the piezoresistive properties of cement composites with hybrid carbon fibers and nanotubes,” Sensors 17(11), 2516.

36. You, I., Yoo, D., Kim S., Kim M-J. and Zi, G., (2017.10.29) “Electrical and self-sensing properties of ultra-high-performance fiber-reinforced concrete with carbon nanotubes.”, Sensors 17(11), 2481

37. Yoo, D., You, I., and Lee, S.-J. (2017.05.08), “Electrical Properties of Cement-Based Composites with Carbon Nanotubes, Graphene, and Graphite nanofibers,” Sensors 17(5), 1064.

38. Hong, S. Y., Lee, Y. H., Part, H., Jin, S. W., Jeong, Y. R., Yun, J., You, I., Zi, G., and Ha, J. S. (2016.02.03). "Stretchable active matrix temperature sensor array of polyaniline nanofibers for electronic skin", Advanced Materials 28(5), 930-935. 

39. You, I., Choi, J., Lange, D. A., and Zi, G. (2016.02.01). "Pozzolanic reaction of the waste glass sludge incorporating precipitation additives", Computers and Concrete 17(2), pp. 255-269.

Blue stands for the first or corresponding author.

1. 성지혜, 박정준, 정동섭, 유일환, 이희업, 이승정 (2025.07), "주입 실험 기반 MWCNTs 혼입 그라우트의 수분 침투 감지 특성, 한국복합재료학회,  28(4), pp. 403-413. 

2. 전낙현, 유일환, 김지수, 이승정, 황경민, 김정중 (2024.10), "전력구조물의 상태등급에 따른 구조성능에 대한 매개변수 연구", 한국방재학회, 24(5), pp.193-201.

3. 이승연, 유일환, 박종섭, 지광습 (2021.10), "편심하중을 받는 탈착식 스퍼드캔의 링플레이트 보강 효과", 한국방재학회 21(5), pp. 191-202.

1. 등록번호 1026320950000 (2024.01.29), 나노버블 이산화탄소 용해수를 이용한 카본이팅 콘크리트의 제조방법, 한국건설기술연구원; 박정준, 곽종원, 김성욱, 류금성, 허영선, 이남곤, 유일환, 박기준, 김문경.

2. 등록번호 1023920350000 (2022.04.25), 마이크로 유리 분말과 결정질 SiO2 분말을 혼입한 초고성능 섬유보강 시멘트 복합체, 고려대학교 산학협력단; 지광습, 유일환. 

3. 등록번호 1016912990000  (2016.12.23), LCD 혼입 저알칼리 시멘트콘크리트 결합재 조성물, 그 조성물의 제조 방법, 그 조성물을 포함하는 콘크리트 구조물, 고려대학교 산학협력단; 지광습, 유일환, 현대시멘트 주식회사; 정찬일, 유창진.

1. 고려대학교 산학협력단; 지광습, 유일환 --> 현대시멘트 주식회사, LCD 혼입 저알칼리 시멘트콘크리트 결합재 조성물, 그 조성물의 제조 방법, 그 조성물을 포함하는 콘크리트 구조물 (등록번호 1016912990000).   

1.  You, I., Lee, S.-J. and Yoo, D.-Y. (2019.12). “Cement-Based Piezoresistive in Sensors for structural Monitoring”, in Nanotechnology in cement-based construction, 1st edition, Jenny Stanford Publishing.

Blue stands for the first or corresponding author.

1. You, I., Lee, S.-J., Shin, H.-O., Yoo, D.-Y. (2024). " Self-sensing capacity of ultra-high performance fiber-reinforced concrete with conductive fillers" in 20th World Conference on Non- Destructive Testing (WCNDT), Songdo Convensia, Incheon, South Korea, 27.05.2024 – 31.05.2024. 

2. You, I., Choi, J., Moon, Y., Kim, S., and Zi, G. (2015). "Evaluation of pozzolanic reaction depending on source of waste glass." in the 2015 World Congress on Advances in Structural Engineering and Mechanics, Songdo Convensia, Incheon, South Korea, 25.08.2015 – 29.08.2015.

3.  Lee, S.-J., Choi, G., You, I., Oh, M., Kim, N., Zi, G., Kim, S. (2015). "Evaluation of Buckling Strength for Design Consideration of Offshore Structures." in the 25th International Ocean and Polar Engineering Conference, Kona, Big Island, Hawaii, USA, 21.06.2015 – 26.06.2015.

Blue stands for the first or corresponding author.

A presenter is underlined.