World Journal of Chemical Education
ISSN (Print): 2375-1665 ISSN (Online): 2375-1657 Website: https://www.sciepub.com/journal/wjce Editor-in-chief: Prof. V. Jagannadham
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World Journal of Chemical Education. 2022, 10(3), 114-123
DOI: 10.12691/wjce-10-3-5
Open AccessArticle

Inorganic Chemistry Laboratory Experiment on the Zeolitic Imidazolate Framework ZIF-8, a Typical Example of Metal Organic Framework

Umit B. Demirci1, and Laurent Bernaud1

1Departement de Chimie, Faculte des Sciences, Universite de Montpellier, 34090, Montpellier, France

Pub. Date: September 05, 2022

Cite this paper:
Umit B. Demirci and Laurent Bernaud. Inorganic Chemistry Laboratory Experiment on the Zeolitic Imidazolate Framework ZIF-8, a Typical Example of Metal Organic Framework. World Journal of Chemical Education. 2022; 10(3):114-123. doi: 10.12691/wjce-10-3-5

Abstract

Because our undergraduate chemistry students hear about metal organic frameworks (MOF) within the plan of the teaching units dedicated to inorganic chemistry and coordination chemistry, we initiated in 2017-2018 an inorganic chemistry laboratory experiment aimed at third-year undergraduate students (7 sessions of 4 h each). The laboratory focuses on the synthesis and analysis of the ZIF-8, a well-documented and easy-to-synthesize MOF. Students are introduced to coordination chemistry, MOFs, solvothermal synthesis, analysis techniques (scanning electron microscopy, X-ray diffraction, Fourier transform infra-red spectroscopy, thermogravimetric analysis), and 3D visualization of the structural models of crystalline solids. Prior to any discussion with the instructor, the students are strongly encouraged to analyze their collected data based on the open literature, and it is expected that they will develop their autonomy. The students gain experimental independency. After the laboratory experiment, the students prepare a poster (2 dedicated sessions, of 4 h each), and present it during an oral examination (10th session) in front of a jury of four instructors. In this way, they are assessed. We believe that this inorganic chemistry laboratory experiment could be adopted by other laboratories as it is, or in an adapted form. Some suggestions to adapt it are made.

Keywords:
inorganic chemistry Coordination chemistry MOFs Solvothermal synthesis ZIF-8

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References:

[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.