[1] |
Shi Z. Z., Zhang C., Tang C. H., Jiao N., Chem. Soc. Rev.,2012, 41, 3381-4330
|
[2] |
Tan D. W., Li H. X., Zhang M. J., Yao J. L., Lang J. P., ChemCatChem,2017, 9(6), 1113-1118
|
[3] |
Guo B., Xue J. Y., Li H. X., Tan D. W., Lang J. P., RSC Adv.,2016, 6, 51687-51693
|
[4] |
Xie A., Zhou X. X., Feng L. D., Hu X. Y., Dong W., Tetrahedron,2014, 70, 3514-3519
|
[5] |
Yamamtot Y., Kawano Y., Toy P. H., Togo H., Tetrahedron,2007, 63, 4680-4687
|
[6] |
Gunasekaean N., Jerome P., Ng S. W., Tiekink E. R. T., Karvembu R., J. Mol. Catal. A: Chem.,2012, 353, 156-162
|
[7] |
Gamez P.,Arends I. W.,C. E.,Sheldon R. A., Reedijk J., Adv. Synth. Catal.,2004, 346, 805-811
|
[8] |
Yu J., Luan Y., Qi Y., Hou J. Y., Dong W. J., Yang M., Wang G., RSC Adv.,2014, 4, 55028-55035
|
[9] |
Qi Y., Luan Y., Yu J., Peng X., Wang G., Chem. Eur. J.,2015, 21, 1589-1597
|
[10] |
Koenning D., Olbrisch T., Sypaseuth F. D., Tzschucke C. C., Christmann M., Chem. Commun.,2014, 50, 5014-5016
|
[11] |
Hoover J. M., Ryland B. L., Stahl S. S., ACS Catal.,2013, 3, 2599-2605
|
[12] |
Semmelhack M. F., Schmid C. R., Cottes D. A., Chou C. S., J. Am. Chem. Soc.,1984, 106, 3374-3376
|
[13] |
Hoover J. M., Stahl S. S., J. Am. Chem. Soc.,2011, 133, 16901-16910
|
[14] |
Mase N., Mizumori T., Tatemoto Y., Chem. Commun., 2011, 47, 2086—2088
|
[15] |
Mannam S., Alamsetti S. K., Sekar G., Adv. Synth. Catal.,2007, 349, 2253-2258
|
[16] |
Figiel P. J., Kirillov A. M., Karabach Y. Y., Kopylovich J. L. P., J. Mol. Catal. A: Chem.,2009, 305, 178-182
|
[17] |
Zhan B. Z., Thompson A., Tetrahedron,2004, 60, 2917-2935
|
[18] |
Tamas M., Alfons B., Chem. Rev.,2004, 104, 3037-3058
|
[19] |
Yang G. Y., Zhu W. M., Zhang P. K., Xue H. Z., Wang W., Tian J. S., Song M. P., Adv. Synth. Catal.,2008, 350, 542-546
|
[20] |
Herbert M., Montilla F., Galinda A., Dalton Trans.,2010, 39, 900-907
|
[21] |
Camilla P., Francesca C., Green Chem.,2012, 14, 547-564
|
[22] |
Zhang L. L., Xin X. L., Lu Y. K., Sun D. F., Chem. Res. Chinese Universities,2018, 34(2), 175-179
|
[23] |
Zhang W. H., Ren Z. G., Lang J. P., Chem. Soc. Rev.,2016, 45, 4995-5019
|
[24] |
Liu D., Wang H. F., Abrahams B. F., Lang J. P., Angew. Chem. Int. Ed.,2010, 49, 4767-4770
|
[25] |
Li F. L., Shao Q., Huang X., Lang J. P., Angew. Chem. Int. Ed.,2018, 57, 1888-1892
|
[26] |
Li K., He K. H., Li Q. W., Xia B., Wang Q. L., Zhang Y. H., Chem. Res. Chinese Universities,2018, 34(5), 700-704
|
[27] |
Li W. X., Gu J. H., Li H. X., Dai M., Youg D. J., Li H. Y., Lang J. P., Inorg. Chem.,2018, 57, 13453-13460
|
[28] |
Bogaerts T., Deyne A. V. Y., Liu Y. Y., Lynen F., Van S. V., Van D. V. P., Chem. Commun.,2013, 49, 8021-8023
|
[29] |
Liu L. L., Zhang X., Gao J. S., Xu C. M., Green Chem.,2012, 14, 1710-1720
|
[30] |
Leus K., Liu Y. Y., Meledian M., Turner S., Tendeloo G. V., Van D. V. P., J. Catal.,2014, 316, 201-209
|
[31] |
Kaposi M., Cokoja M., Hutterer C., Hauser S. A., Kaposi T., Klappenberger F., Pöthig A., Barth J. V., Herrmann W. A., Kühn F. E., Dalton Trans.,2015, 44, 1-7
|
[32] |
Cavka J. H., Jakobsen S., Olsbye U., Guillou N., Lamberti C., Bordiga S., Lillerud K. P., J. Am. Chem. Soc., 2008, 130, 13850-13851
|
[33] |
Islamoqlu T., Ortuño M., Proussaloglou E., Howarth A.J., Vermeulen N. A., Atilgan A., Asiri A. M., Cramer C. J., Farha O. K., Angew. Chem. Int. Ed., 2018, 57, 1949—1953
|