[1] Sharmeen, J. B.; Mahomoodally, F. M.; Zengin, G.; Maggi, F., Essential Oils as Natural Sources of Fragrance Compounds for Cosmetics and Cosmeceuticals. Molecules 2021, 26(3): 666. [2] Louw, S., Recent trends in the chromatographic analysis of volatile flavor and fragrance compounds: Annual review 2020. Analytical Science Advances 2021, 2 (3-4), 157-170. [3] Herrmann, A., Controlled release of volatiles under mild reaction conditions: from nature to everyday products. Angew Chem Int Ed Engl 2007, 46 (31), 5836-63. [4].胡静，刘明．环境响应型潜香体设计与修饰研究进展[J]. 应用 技术学报，2024, 24(1): 108-116. [5] Dykstra, Richard R,Gray, et al. Compositions Comprising Photo- Labile Perfume Delivery Systems[P].CA20022456620,2009-03-24. [6] Indradas, B.; Hansen, C.; Palmer, M.; Womack, G. B., Autoxidation as a trigger for the slow release of volatile perfumery chemicals. Flavour and Fragrance Journal 2014, 29 (5), 313-323. [7] Song, Q.; Zhou, X.; Xue, C.; Zhang, Z.-A.; Feng, J.; Ji, M.; Wang, L.; Liu, X.; Han, J., Multifunctional quaternary ammonium surfactants with controlled release of carbonyl perfumes. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2022, 655. [8] Günay, K. A.; Benczédi, D.; Herrmann, A.; Klok, H. A., Peptide ‐ Enhanced Selective Surface Deposition of Polymer ‐Based Fragrance Delivery Systems. Advanced Functional Materials 2016, 27 (2). [9].Tree-udom, T.; Wanichwecharungruang, S. P.; Seemork, J.; Arayachukeat, S., Fragrant chitosan nanospheres: Controlled release systems with physical and chemical barriers. Carbohydrate Polymers 2011, 86 (4), 1602-1609. [10] Paret, N.; Trachsel, A.; Berthier, D. L.; Herrmann, A., Controlled release of encapsulated bioactive volatiles by rupture of the capsule wall through the light-induced generation of a gas. Angew Chem Int Ed Engl 2015, 54 (7), 2275-9.