Conversion of CO2 into Cyclic Carbonates under Ambient Conditions Catalyzed by Rare-Earth Metal Complexes Bearing Poly(phenolato) Ligand

被引:61
作者
Xin, Xiu [1 ]
Shan, Haiwen [1 ]
Tian, Tian [1 ]
Wang, Yaorong [1 ]
Yuan, Dan [1 ]
You, Hongpeng [2 ]
Yao, Yingming [1 ]
机构
[1] Soochow Univ, Coll Chem Chem Engn & Mat Sci, Key Lab Organ Synth Jiangsu Prov, Dushu Lake Campus, Suzhou 215123, Peoples R China
[2] Chinese Acad Sci, Changchun Inst Appl Chem, State Key Lab Rare Earth Resource Utilizat, Changchun 130022, Peoples R China
来源
ACS SUSTAINABLE CHEMISTRY & ENGINEERING | 2020年 / 8卷 / 35期
基金
中国国家自然科学基金;
关键词
Rare-earth metal complexes; Carbon dioxide; Cyclic carbonates; Kinetic study; Ambient conditions; Catalyst recycling; HIGHLY EFFICIENT CATALYSTS; CHEMICAL FIXATION; IRON(III) COMPLEXES; ORGANIC CARBONATES; COUPLING REACTIONS; ALUMINUM CATALYST; PROPYLENE-OXIDE; SALEN COMPLEXES; DIOXIDE; EPOXIDES;
D O I
10.1021/acssuschemeng.0c01736
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
A series of rare-earth (RE) metal complexes (Y, Sm, Nd, and La) stabilized by polydentate N-methylethylenediamine-bridged tris(phenolato) ligands was synthesized and characterized. Lanthanum complexes showed good activity in catalyzing the cycloaddition reaction of terminal epoxides with CO2 under ambient conditions (i.e., room temperature, 1 bar CO2), giving rise to cyclic carbonates in 49-99% yields. More importantly, generally challenging internal epoxides were also transformed into cyclic carbonates in 70-99% yields in the presence of 1 bar CO2 at 60 degrees C. This is the first RE-based catalyst for efficient cycloaddition of CO2 and epoxides under ambient conditions and is among the most active catalysts for this important transformation. The lanthanum complex was also recycled six times. Kinetic study of the cycloaddition of cyclohexene oxide and CO2 was conducted, and the kinetic equation was determined as follows: rate = k[epoxide](1)[CO2](0)[cat.](1.26)[TBAI](0.4). The Gibbs activation energy (333 K) was determined to be 29.8 kcal/mol.
引用
收藏
页码:13185 / 13194
页数:10
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共 90 条
  • [1] Characterization of Oxo-Bridged Iron Amino-bis(phenolate) Complexes Formed Intentionally or in Situ: Mechanistic Insight into Epoxide Deoxygenation during the Coupling of CO2 and Epoxides[J]. Andrea, Kori A.;Brown, Tyler R.;Murphy, Jennifer N.;Jagota, Dakshita;McKearney, Declan;Kozak, Christopher M.;Kerton, Francesca M. INORGANIC CHEMISTRY, 2018(21)
  • [2] Merging catalysis and supramolecular aggregation features of triptycene based Zn(salphen)s[J]. Anselmo, Daniele;Salassa, Giovanni;Escudero-Adan, Eduardo C.;Martin, Eddy;Kleij, Arjan W. DALTON TRANSACTIONS, 2013(22)
  • [3] Catalysis research of relevance to carbon management: Progress, challenges, and opportunities[J]. Arakawa, H;Aresta, M;Armor, JN;Barteau, MA;Beckman, EJ;Bell, AT;Bercaw, JE;Creutz, C;Dinjus, E;Dixon, DA;Domen, K;DuBois, DL;Eckert, J;Fujita, E;Gibson, DH;Goddard, WA;Goodman, DW;Keller, J;Kubas, GJ;Kung, HH;Lyons, JE;Manzer, LE;Marks, TJ;Morokuma, K;Nicholas, KM;Periana, R;Que, L;Rostrup-Nielson, J;Sachtler, WMH;Schmidt, LD;Sen, A;Somorjai, GA;Stair, PC;Stults, BR;Tumas, W. CHEMICAL REVIEWS, 2001(04)
  • [4] New ternary rare-earth metal boride carbides R15B4C14 (R=Y, Gd-Lu) containing BC2 units: Crystal and electronic structures, magnetic properties[J]. Babizhetskyy, Volodymyr;Simon, Arndt;Mattausch, Hansjuergen;Hiebl, Kurt;Zheng, Chong. JOURNAL OF SOLID STATE CHEMISTRY, 2010(10)
  • [5] Zn(II), Cd(II) and Cu(II) complexes of 2,5-bis{N-(2,6-diisopropylphenyl)iminomethyl}pyrrole: synthesis, structures and their high catalytic activity for efficient cyclic carbonate synthesis[J]. Babu, Heeralal Vignesh;Muralidharan, Krishnamurthi. DALTON TRANSACTIONS, 2013(04)
  • [6] Amidine-mediated delivery of CO2 from gas phase to reaction system for highly efficient synthesis of cyclic carbonates from epoxides[J]. Barkakaty, Balaka;Morino, Kazuhide;Sudo, Atsushi;Endo, Takeshi. GREEN CHEMISTRY, 2010(01)
  • [7] Highly integrated CO2 capture and conversion: direct synthesis of cyclic carbonates from industrial flue gas[J]. Barthel, Alexander;Saih, Youssef;Gimenez, Michel;Pelletier, Jeremie D. A.;Kuehn, F. E.;D'Elia, Valerio;Basset, Jean-Marie. GREEN CHEMISTRY, 2016(10)
  • [8] Reviewing Rare Earth Succinate Frameworks from the Reticular Chemistry Point of View: Structures, Nets, Catalytic and Photoluminescence Applications[J]. Bernini, Maria C.;Gomez, German E.;Brusau, Elena V.;Narda, Griselda E. ISRAEL JOURNAL OF CHEMISTRY, 2018(9-10)
  • [9] Novel iron(III) catalyst for the efficient and selective coupling of carbon dioxide and epoxides to form cyclic carbonates[J]. Buonerba, Antonio;De Nisi, Assunta;Grassi, Alfonso;Milione, Stefano;Capacchione, Carmine;Vagin, Sergei;Rieger, Bernhard. CATALYSIS SCIENCE & TECHNOLOGY, 2015(01)
  • [10] Behavior of Lewis and Bronsted surface acidity featured by Ag, Au, Ce, La, Fe, Mn, Pd, Pt, V and W decorated on protonated titanate nanotubes[J]. Camposeco, R.;Castillo, S.;Mejia-Centeno, Isidro;Navarrete, J.;Rodriguez-Gonzalez, V. MICROPOROUS AND MESOPOROUS MATERIALS, 2016
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