[1] | Caro, J., “Quo vadis, MOF?,” Chemie Ingenieur Technik, 90. 1759-1768. 2018. |
|
[2] | Freund, R., Zaremba, O., Arnauts, G., Ameloot, R., Skorupskii, G., Dinca, Bavykina, A., Gascon, J., Elsmont, A., Goscianska, J., Kalmutzki, M., Lächelt, U., Ploetz, E., Diercks, C.S. and Wuttke, S., “The current status of MOF and COF applications,” Angewandte Chemie International Edition, 60. 23975-24001. 2021. |
|
[3] | Jin, C.X. and Shang, H.B., “Synthetic methods, properties and controlling roles of synthetic parameters of zeolite imidazole framework-8: A review,” Journal of Solid State Chemistry, 297. 122040. 2021. |
|
[4] | Moosavi, S.M., Nandy, A., Jablonka, K.M., Ongari, D., Janet, J. P., Boyd, P.G., Lee, Y., Smit, B. and Kulik, H.J., “Understanding the diversity of the metal-organic framework ecosystem,” Nature Communications, 11. 4068. 2020. |
|
[5] | Sumida, K. and Arnold, J., “Preparation, characterization, and postsynthetic modification of metal-organic frameworks: Synthetic experiments for an undergraduate laboratory course in inorganic chemistry,” Journal of Chemistry Education, 88. 92-94. 2011. |
|
[6] | Crane, J.L., Anderson, K.E. and Conway, S.G., “Hydrothermal synthesis and characterization of a metal–organic framework by thermogravimetric analysis, powder X-ray diffraction, and infrared spectroscopy: An integrative inorganic chemistry experiment,” Journal of Chemistry Education, 92. 373-377. 2015. |
|
[7] | Lyle, S.J., Flaig, R.W., Cordova, K.E. and Yaghi, O.M., “Facilitating laboratory research experience using reticular chemistry,” Journal of Chemistry Education, 95. 1512-1519. 2018. |
|
[8] | Liu, Y., Myers, E.J., Rydahl, S.A. and Wang, X., “Ultrasonic-assisted synthesis, characterization, and application of a metal-organic framework: A green general chemistry laboratory project,” Journal of Chemistry Education, 96. 2286-2291. 2019. |
|
[9] | Sakamaki, Y., Tsuji, M., Heidrick, Z., Watson, O., Durchman, J., Salmon, C., Burgin, S.R. and Beyzavi, H. “Preparation and applications of metal-organic frameworks (MOFs): A laboratory activity and demonstration for high school and/or undergraduate students,” Journal of Chemistry Education, 97. 1109-1116. 2020. |
|
[10] | Lee, Y.R., Jang, M.S., Cho, H.Y., Kwon, H.J., Kim, S. and Ahn, W.S. “ZIF-8: A comparison of synthesis methods,” Chemical Engineering Journal, 271. 276-280. 2015. |
|
[11] | Mercury from the Cambridge Crystallographic Data Centre. [Online]. Available: https://www.ccdc.cam.ac.uk/solutions/csd-system/components/mercury/ [Accessed May 23, 2022]. |
|
[12] | Lewis, D.W., Ruiz-Salvador, A.R., Gomez, A., Rodriguez-Albelo, L.M., Coudert, F.X., Slater, B., Cheetham, A.K. and Mellot-Draznieks, C. “Zeolitic imidazole frameworks: structural and energetics trends compared with their zeolite analogues,” CrystEngComm, 11. 2272-2276. 2009. |
|
[13] | Kaur, H., Mohanta, G.C., Gupta, V., Kukkar, D. and Tyagi, S., “Synthesis and characterization of ZIF-8 nanoparticles for controlled release of 6-mercaptopurine drug,” Journal of Drug Delivery Science and Technology, 41. 106-112. 2017. |
|
[14] | Hu, Y., Kazemian, H., Rohani, S., Huang, Y. and Song, Y. “In situ high pressure study of ZIF-8 by FTIR spectroscopy,” Chemistry Communications, 47. 12694-12696. 2011. |
|
[15] | Tran, U.P.N., Le, K.K.A. and Phan, N.T.S., “Expanding applications of metal-organic frameworks: Zeolite imidazolate framework ZIF-8 as an efficient heterogeneous catalyst for the Knoevenagel reaction,” ACS Catalysis, 1. 120-127. 2011. |
|
[16] | Schejn, A., Balan, L., Falk, V., Aranda, L., Medjahdi, G. and Schneider, R. “Controlling ZIF-8 nano- and microcrystal formation and reactivity through zinc salt variations,” CrystEngComm, 16. 4493-4500. 2014. |
|
[17] | Yang, S., Xia, N., Li, M., Liu, P., Wang, Y. and Qu, L., “Facile synthesis of a zeolitic imidazolate framework-8 with reduced graphene oxide hybrid material as an efficient electrocatalyst for nonenzymatic H2O2 sensing,” RSC Advances, 9. 15217-15223. 2019. |
|
[18] | Abbasi, Z., Shamsei, E., Leong, S.K., Ladewig, B., Zhang, X. and Wang H. “Effect of carbonization temperature on adsorption property of ZIF-8 derived nanoporous carbon for water treatment,” Microporous and Mesoporous Materials, 236. 28-37. 2016. |
|