References
- Chen, C.J., Liu, G.Y., Liu, X.S., Pang, S.P., Zhu, C.S., Lv, L.P., and Ji, J. (2011) Photo-responsive, biocompatible polymeric micelles self-assembled from hyperbranched polyphosphate-based polymers. Polymer Chemistry, 2:1389–1397.
- Fleige, E., Quadir, M.A., and Haag, R. (2012) Stimuli-responsive polymeric nanocarriers for the controlled transport of active compounds: Concepts and applications. Advanced Drug Delivery Reviews, 64:866–884.
- Kono, K., Hayashi, H., and Takagishi, T. (1994) Temperature-sensitive liposomes: Liposomes bearing poly (N-isopropylacrylamide). Journal of Controlled Release, 30:69–75.
- Morgan, C.G., Thomas, E.W., Sandhu, S.S., Yianni, Y.P., and Mitchell, A.C. (1987) Light-induced fusion of liposomes with release of trapped marker dye is sensitised by photochromic phospholipid. Biochimica Et Biophysica Acta (BBA) – Biomembranes, 903:504–509.
- Bisby, R.H., Mead, C., and Morgan, C.G. (2000) Active uptake of drugs into photosensitive liposomes and rapid release on UV photolysis. Photochemistry and Photobiology, 72:57–61.
- Seo, H.J., and Kim, J.C. (2011) Characteristics and photo-responsive release property of liposome containing 7-acetoxy coumarin. Journal of Nanoscience and Nanotechnology, 11:10262–10270.
- El-Sayeda, I.H., Huangb, X., and El-Sayed, M.A. (2006) Selective laser photo-thermal therapy of epithelial carcinoma using anti-EGFR antibody conjugated gold nanoparticles. Cancer Letters, 239:129–135.
- Fomina, N., Sankaranarayanan, J., and Almutairi, A. (2012) Photochemical mechanisms of light-triggered release from nanocarriers. Advanced Drug Delivery Reviews, 64:1005–1020.
- Dai, J., and Kim, J.C. (2012) Effect of photo-dimerization of coumarins on their interaction with polymeric β-cyclodextrin. Korean Journal of Chemical Engineering, 29:323–328.
- Dai, J., Seo, S.R., and Kim, J.C. (2013) Photo-responsive microgels composed of polymeric β-cyclodextrin and Tween 20-coumarin conjugate. Korean Journal of Chemical Engineering, 30:245–250.
- Shi, D., Matsusaki, M., and Akashi, M. (2011) Photo-tunable protein release from biodegradable nanoparticles composed of cinnamic acid derivatives. Journal of Controlled Release, 149:182–189.
- Shi, D., Matsusaki, M., and Akashi, M. 2009 Unique size-change behavior of photo-crosslinked cinnamic acid derivative nanoparticles during hydrolytic degradation. Macromolecular Bioscience, 9:248–255.
- Guo, H., and Kim, J.C. (2015) Upper critical solution temperature behavior of cinnamic acid and polyethyleneimine mixture and its effect on temperature-dependent release of liposome. International Journal of Pharmaceutics, 494:172–179.
- Zhang, H., and Kim, J.C. (2016) Concentration and temperature-sensitive assembling behavior of polyethyleneimine–cinnamic acid conjugate and its release-controlling property in monoolein cubic phase. Journal of Industrial and Engineering Chemistry, 36:215–223.
- Chen, Y.L., Huang, S.T., Sun, F.M., Chiang, Y.L., Chiang, C.J., Tsai, C.M., and Weng, C.J. (2011) Transformation of cinnamic acid from trans- to cis-form raises a notable bactericidal and synergistic activity against multiple-drug resistant Mycobacterium tuberculosis. European Journal of Pharmaceutical Sciences, 43:188–194.
- Turner, L.B., Mueller-Harvey, I., and McAllan, A.B. (1993) Light-induced isomerization and dimerization of cinnamic acid derivatives in cell walls. Phytochemistry, 33:791–796.
- Hartley, R.D., and Jones, E.C. (1975) Effect of ultraviolet light on substituted cinnamic acids and the estimation of their cis and trans isomers by gas chromatography. Journal of Chromatography A, 107:213–218.
- Urbanus, J., Roelands, C.M., Verdoes, D., Jansens, P.J., and Ter Horst, J.H. (2010) Co-crystallization as a separation technology: Controlling product concentrations by co-crystals. Crystal Growth & Design, 10:1171–1179.
- Zhang, H., and Kim, J.C. (2015) Preparation and photothermal induced release from cubic phase containing gold nanoparticle. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 465:59–66.