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Original Article

Structure-Property Relationship and Perfomance Optimization of Acrylic Pressure-Sensitive Adhesives Incorporating DBPA-Based Monomer
Dal Ho Lee^*, Nam Gyu Yang^**, Doo Kyung Moon^{*, **†}
* Carbon-Neutral and Renewable Energy, Konkuk University
** Department of Chemical Engineering, Konkuk University
DBPA 기반 단량체가 도입된 아크릴계 감압성 접착제의 구조-물성 관계 및 성능 최적화
이달호^* · 양남규^** · 문두경^{*, **†}
This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

1. Zhu, A., Shi, L., Shi, H., Qian, J., and Shi, Y., “Role of the soft and hard segments structure in modifying the performance of acrylic adhesives modified by polyurethane macromonomers,” ACS Omega, Vol. 9, No. 30, 2024, pp. 32735–32744.
2. Czech, R. Z., “Pressure-sensitive acrylic adhesives (PSAs): how it began and the present state of art,” ChemTexts, Vol. 10, No. 6, 2024.
3. Seok, W. C., Leem, J. T., and Song, H. J., “Acrylic pressure-sensitive adhesives based on ethylene glycol acrylate for flexible display application: Highly elastic and recoverable properties,” Polymer Testing, Vol. 108, 2022, 107491.
4. Seok, W. C., Leem, J. T., Kang, J. H., Kim, Y. J., Lee, S., and Song, H. J., “Change of characterization and film morphology based on acrylic pressure-sensitive adhesives by hydrophilic derivative ratio,” Polymers, Vol. 12, 2020, p. 1504.
5. Khaleghi Qusheh Bolagh, R., Salimi, A., Kabiri, K., and Pourali, A., “Synthesis and evaluation of novel aromatic acrylic monomers for optically clear adhesive with high refractive index,” Journal of Applied Polymer Science, Vol. 140, No. 4, 2023, e53375.
6. Kim, D. W., Kim, H. D., Jeon, W. J., Kim, H. J., Choi, J. M., Kim, Y. D., and Kwon, M. S., “Ultraviolet Light Debondable Optically Clear Adhesives for Flexible Displays through Efficient Visible-Light Curing,” Advanced Materials, Vol. 36, 2024, p. 2309891.
7. Akbulut, G., and Bulbul Sonmez, H., “Synthesis of styrene and n-butyl acrylate latex polymers modified by functional monomers and their waterborne paint applications,” Journal of Coatings Technology and Research, Vol. 19, 2022, pp. 1421–1435.
8. Gziut, K., Kowalczyk, A., Schmidt, B., Idzik, T. J., and Sośnicki, J. G., “Influence of methacrylate and vinyl monomers on radical bulk photopolymerization process and properties of epoxy–acrylate structural adhesives,” Polymers, Vol. 15, 2023, p. 926.
9. Du, W.-T., Kuan, Y.-L., and Kuo, S.-W., “Intra- and Intermolecular Hydrogen Bonding in Miscible Blends of CO₂/Epoxy Cyclohexene Copolymer with Poly(Vinyl Phenol),” International Journal of Molecular Sciences, Vol. 23, No. 13, 2022, p. 7018.
10. Wang, C., Zhao, X., Tian, D., Wang, D., Chen, C., and Zhou, H., “Synthesis and Characterization of Novel Polyimides Derived from 4,4'-bis(5-amino-2-pyridinoxy)benzophenone: Effect of Pyridine and Ketone Units in the Main Chain,” Designed Monomers and Polymers, Vol. 20, No. 1, 2017, pp. 97–105.
11. Dogan, B., Catak, S., Van Speybroeck, V., Waroquier, M., and Aviyente, V., “Free Radical Polymerization of Ethyl Methacry Late and Ethyl Α-hydroxy Methacrylate: A Computational Approach to the Propagation Kinetics,” Polymer, Vol. 53, No. 15, 2012, pp. 3211-3219.
12. Lee, K., Tiu, B. D. B., Martchenko, V., Mai, K., Lee, G., Gerst, M., and Messersmith, P. B., “A modular strategy for functional pressure-sensitive adhesives,” ACS Applied Materials & Interfaces, Vol. 13, No. 2, 2021, pp. 3161–3165.
13. Kim, P. S., Lee, S. W., Park, J. W., Park, C. H., and Kim, H. J., “Synthesis and characterization of thermally stable acrylic PSA using silicone urethane methacrylate with a semi-IPN structure,” Journal of Adhesion Science and Technology, Vol. 28, No. 1, 2013, pp. 15–30.
14. Wang, S., Huang, Y., Sun, W., and Lin, X., “Synthesis, Characterization, and Evaluation of a Hindered Phenol-Linked Benzophenone Hybrid Compound as a Potential Polymer Anti-Aging Agent,” Antioxidants, Vol. 13, 2024, 894.

This Article

2025; 38(6): 683-687

Published on Dec 31, 2025
10.7234/composres.2025.38.6.683
Received on Nov 11, 2025
Revised on Nov 25, 2025
Accepted on Dec 15, 2025

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Correspondence to

Doo Kyung Moon
* Carbon-Neutral and Renewable Energy, Konkuk University
** Department of Chemical Engineering, Konkuk University
E-mail: dkmoon@konkuk.ac.kr