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Title

Oxidative carboxylation of cycloheptene under solvent free conditions

Journal title

Archives of Environmental Protection

Yearbook

2025

Volume

51

Issue

1

Authors

Alsaiari, Raiedhah

Affiliation

Alsaiari, Raiedhah : Chemistry department, college of science and art in sharurah, Najran University, Saudi Arabia

Keywords

cycloheptene ; oxidative carboxylation ; sol-immobilization ; cyclic carbonate

Divisions of PAS

Nauki Techniczne

Coverage

57-63

Publisher

Polish Academy of Sciences

Bibliography

  1. Alsaiari, A. R. (2024) Oxidation of 1-hexene using supported ruthenium catalysts under solvent-free conditions, S.Afr.j.chem. (Online) 78. DOI:10.17159/0379-4350/2024/v78a09
  2. Alsaiari, A. R. (2022). Supported ruthenium catalyst as an effective catalyst for selective oxidation of toluene, Journal of the Indian Chemical Society, 99, pp. 100593. DOI:10.1016/j.jics.2022.100593
  3. Alsaiari, R. A. (2022). Oxidation of cycloalkane using supported ruthenium catalysts under solvent-free conditions, Chemical Industry & Chemical Engineering Quarterly, 28(1), pp. 85–93. DOI:10.2298/CICEQ210304020A
  4. Aresta, M. & Dibenedetto, A. (2002). Carbon dioxide as building block for the synthesis of organic carbonates: behavior of homogeneous and heterogeneous catalysts in the oxidative carboxylation of olefins, J. Mol. Catal. A, 399, pp.182–183. DOI:10.1016/S1381-1169(01)00514-3
  5. Bai, D. & Jing, H. (2010) Aerobic oxidative carboxylation of olefins with metalloporphyrin catalysts. Green Chem 12:39. DOI:10.1039/b916042f
  6. Bodzek, M. (2022) Nanoparticles for water disinfection by photocatalysis: A review. Archives of Environmental Protection, 48, 1 pp. 3–17. DOI: 10.24425/aep.2022.140541
  7. Beier, M.J., Kleist, W., Wharmby, M.T., Kissner, R., Kimmerle, B., Wright, P.A., Grunwaldt, J-D. & Baiker, A. (2012) Aerobic epoxidation of olefins catalyzed by the cobalt-based metal-organic framework STA-12(Co). Chem Eur J, 18, 887. DOI:10.1002/chem.201101223
  8. Chen, F., Dong, T., Xu, T., Li, X. & Hu, C. (2011) Direct synthesis of cyclic carbonates from olefins and CO2 catalyzed by a MoO2 (acac)2-quaternary ammonium salt system. Green Chem, 13, 2518. DOI:10.1039/C1GC15549K
  9. Evangelisti, C., Guidotti, M., Tiozzo, C., Psaro, R., Maksimchuk, N., Ivanchikova I., Shmakov A.N. & Kholdeeva, O. (2017). Titanium-silica catalyst derived from defined metallic titanium cluster precursor: synthesis and catalytic properties in selective oxidations. Inorganic Chim Acta, 30, pp. 393-401. DOI:/10.1016/j.ica.2017.06.059 .
  10. Han, Q., Qi, B, Ren, W., He, C., Niu, J. & Duan, C. (2015). Polyoxometalate-based homochiral metal-organic frameworks for tandem asymmetric transformation of cyclic carbonates from olefins. Nature Communication, 6, pp. 10007. DOI:10.1038/ncomms10007
  11. Hou, S.L., Dong, J., Zhao, X.Y., Li, X.S., Ren, F.Y., Zhao, J. & Zhao, B. (2023). Thermocatalytic Conversion of CO2 to Valuable Products Activated by NobleMetal-Free Metal-Organic Frameworks, Angew. Chem. Int. Edi., 62, e202305213. DOI:10.1002/anie.202305213
  12. Kumar, S., Singhal, N., Singh, R.K., Gupta, P., Singh, R. & Jain S.L. (2015). Dual catalysis with magnetic chitosan: direct synthesis of cyclic carbonates from olefins with carbon dioxide using isobutyraldehyde as the sacrificial reductant. Dalton Trans, 44, 11860. DOI:10.1039/C5DT01012H
  13. Li, J.W., Zeng, H.L., Dong, X., Ding, Y.M., Hu, S.P., Zhang, R.H., Dai, Y.Z., Cui, P.X., Xiao, Z., Zhao, D.H., Zhou, L.J., Zheng, T.T., Xiao, J.P., Zeng, J. & Xia, C. (2023). Selective CO2 Electrolysis to CO Using Isolated Antimony Alloyed Copper. Nature Communication, 14, pp. 340-350. DOI:10.1038/s41467-023-35960-z .
  14. Maksimchuk, N.V., Ivanchikova, I.D., Ayupov, A.B. & Kholdeeva, O.A. (2016). One-step solvent-free synthesis of cyclic carbonates by oxidative carboxylation of styrenes over a recyclable Ti-containing catalyst, Appl Catal B, 181, 363. DOI:10.1016/j.apcatb.2015.08.010
  15. Napadensky, E. & Sasson, Y. (1991) Selective decomposition of tetralin hydroperoxide catalysed by quaternary ammonium salts. J Chem Soc Chem Commun 2, 65. DOI:10.1039/C39910000065
  16. Pal, T.K., De, D. & Bharadwaj, B.K. (2020). Metal-Organic Frameworks for the Chemical Fixation of CO2 into Cyclic Carbonates, Coordin. Chem. Rev., 408, 213173. DOI:10.1016/j.ccr.2019.213173
  17. Ramidi, P., Felton, C.M., Subedi, B.P., Zhou, H., Tian, Z.R., Gartia, Y., Pierce, B.S. & Ghosh, A. (2015). Synthesis and characterization of manganese(III) and high-valent manganese-oxo complexes and their roles in conversion of alkenes to cyclic carbonates. Journal of CO2 Utilization, 9, pp. 48-57. DOI:10.1016/j.jcou.2014.12.004
  18. Shao, Y., Kosari, M., Xi, S.B. & Zeng, H.C. (2022). Single Solid Precursor-Derived ThreeDimensional Nanowire Networks of CuZn-Silicate for CO2 Hydrogenation to Methanol. ACS Catalysis, 12, pp. 5750-5765. DOI:10.1021/acscatal.2c00726
  19. Sun, J., Fujita, S-i., Bhanage, B.M. & Arai, M. (2004). Direct oxidative carboxylation of styrene to styrene carbonate in the presence of ionic liquids. Catalysis Communications, 5, pp. 83-87. DOI:10.1016/j.catcom.2003.11.016
  20. Velty, A. & Corma, A. (2023). Advanced Zeolite and Ordered Mesoporous Silica-Based Catalysts for the Conversion of CO2 to Chemicals and Fuels, Chem. Soc. Rev., 52, pp. 1773-1946. DOI:10.1039/D2CS00456A
  21. Verdol, J.A. (1962) U.S. Patent, 3025305.

Date

11.02.2025

Type

Article

Identifier

DOI: 10.24425/aep.2025.153749

DOI

10.24425/aep.2025.153749

Abstracting & Indexing

Abstracting & Indexing


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