REFERENCES
1. Sun Q, Soulé JF. Broadening of horizons in the synthesis of CD3-labeled molecules. Chem Soc Rev 2021;50:10806-35.
2. Kopf S, Bourriquen F, Li W, Neumann H, Junge K, Beller M. Recent developments for the deuterium and tritium labeling of organic molecules. Chem Rev 2022;122:6634-718.
3. Atzrodt J, Derdau V, Kerr WJ, Reid M. Deuterium- and tritium-labelled compounds: applications in the life sciences. Angew Chem Int Ed Engl 2018;57:1758-84.
4. Pirali T, Serafini M, Cargnin S, Genazzani AA. Applications of deuterium in medicinal chemistry. J Med Chem 2019;62:5276-97.
5. Prakash G, Paul N, Oliver GA, Werz DB, Maiti D. C-H deuteration of organic compounds and potential drug candidates. Chem Soc Rev 2022;51:3123-63.
6. Wang P, Wang F, Chen Y, et al. Synthesis of all-deuterated tris(2-phenylpyridine) iridium for highly stable electrophosphorescence: the “deuterium effect”. J Mater Chem C 2013;1:4821.
7. Abe T, Miyazawa A, Konno H, Kawanishi Y. Deuteration isotope effect on nonradiative transition of fac-tris (2-phenylpyridinato) iridium (III) complexes. Chem Phys Lett 2010;491:199-202.
8. Box CL, Zhang Y, Yin R, Jiang B, Maurer RJ. Determining the effect of hot electron dissipation on molecular scattering experiments at metal surfaces. JACS Au 2021;1:164-73.
9. Bae HJ, Kim JS, Yakubovich A, et al. Protecting benzylic C-H bonds by deuteration doubles the operational lifetime of deep-blue Ir-Phenylimidazole dopants in phosphorescent oleds. Adv Opt Mater 2021;9:2100630.
10. Liu X, Chan C, Mathevet F, et al. Isotope effect of host material on device stability of thermally activated delayed fluorescence organic light-emitting diodes. Small Science 2021;1:2000057.
11. Cleland WW. The use of isotope effects to determine enzyme mechanisms. Arch Biochem Biophys 2005;433:2-12.
12. Shao L, Hewitt MC. The kinetic isotope effect in the search for deuterated drugs. Drug News Perspect 2010;23:398-404.
13. Gómez-Gallego M, Sierra MA. Kinetic isotope effects in the study of organometallic reaction mechanisms. Chem Rev 2011;111:4857-963.
15. Jones PA, Takai D. The role of DNA methylation in mammalian epigenetics. Science 2001;293:1068-70.
16. Barreiro EJ, Kümmerle AE, Fraga CA. The methylation effect in medicinal chemistry. Chem Rev 2011;111:5215-46.
17. Leung CS, Leung SS, Tirado-Rives J, Jorgensen WL. Methyl effects on protein-ligand binding. J Med Chem 2012;55:4489-500.
18. Zhang L, Ding X, Cui J, et al. Cysteine methylation disrupts ubiquitin-chain sensing in NF-κB activation. Nature 2011;481:204-8.
21. Zhong L, Hou C, Zhang L, Zhao J, Li F, Li W. Synthesis of deuterium-enriched sorafenib derivatives and evaluation of their biological activities. Mol Divers 2019;23:341-50.
22. Barratt M J, Frail D E. Drug repositioning: bringing new life to shelved assets and existing drugs. Hoboken: John Wiley & Sons; 2012.
23. Braman V, Graham P, Cheng C, et al. A randomized phase I evaluation of CTP-499, a novel deuterium-containing drug candidate for diabetic nephropathy. Clin Pharmacol Drug Dev 2013;2:53-66.
24. Sabounjian L, Graham P, Wu L, et al. A first-in-patient, multicenter, double-blind, 2-arm, placebo-controlled, randomized safety and tolerability study of a novel oral drug candidate, CTP-499, in chronic kidney disease. Clin Pharmacol Drug Dev 2016;5:314-25.
25. Zeng XP, Cao ZY, Wang YH, Zhou F, Zhou J. Catalytic enantioselective desymmetrization reactions to all-carbon quaternary stereocenters. Chem Rev 2016;116:7330-96.
26. Enders D, Niemeier O, Henseler A. Organocatalysis by N-heterocyclic carbenes. Chem Rev 2007;107:5606-55.
27. Bugaut X, Glorius F. Organocatalytic umpolung: N-heterocyclic carbenes and beyond. Chem Soc Rev 2012;41:3511-22.
28. Cohen DT, Scheidt KA. Cooperative lewis acid/N-heterocyclic carbene catalysis. Chem Sci 2012;3:53-7.
29. Sarkar S, Biswas A, Samanta RC, Studer A. Catalysis with N-heterocyclic carbenes under oxidative conditions. Chemistry 2013;19:4664-78.
30. Ryan SJ, Candish L, Lupton DW. Acyl anion free N-heterocyclic carbene organocatalysis. Chem Soc Rev 2013;42:4906-17.
31. Hopkinson MN, Richter C, Schedler M, Glorius F. An overview of N-heterocyclic carbenes. Nature 2014;510:485-96.
32. Flanigan DM, Romanov-Michailidis F, White NA, Rovis T. Organocatalytic reactions enabled by N-heterocyclic carbenes. Chem Rev 2015;115:9307-87.
33. Chen XY, Gao ZH, Ye S. Bifunctional N-Heterocyclic carbenes derived from l-pyroglutamic acid and their applications in enantioselective organocatalysis. Acc Chem Res 2020;53:690-702.
34. Ohmiya H. N-Heterocyclic carbene-based catalysis enabling cross-coupling reactions. ACS Catal 2020;10:6862-9.
35. Chen X, Wang H, Jin Z, Chi YR. N-Heterocyclic carbene organocatalysis: activation modes and typical reactive intermediates. Chin J Chem 2020;38:1167-202.
36. Zhang B, Yang G, Guo D, Wang J. Recent developments on NHC-driven dual catalytic approaches. Org Chem Front 2022;9:5016-40.
37. Zhang B, Wang J. Assembly of versatile fluorine-containing structures via N-heterocyclic carbene organocatalysis. Sci China Chem 2022;65:1691-703.
38. Gao J, Feng J, Du D. Generation of azolium dienolates as versatile nucleophilic synthons via N -heterocyclic carbene catalysis. Org Chem Front 2021;8:6138-66.
39. Bellotti P, Koy M, Hopkinson MN, Glorius F. Recent advances in the chemistry and applications of N-heterocyclic carbenes. Nat Rev Chem 2021;5:711-25.
40. Wadamoto M, Phillips EM, Reynolds TE, Scheidt KA. Enantioselective synthesis of alpha,alpha-disubstituted cyclopentenes by an N-heterocyclic carbene-catalyzed desymmetrization of 1,3-diketones. J Am Chem Soc 2007;129:10098-9.
41. Ema T, Akihara K, Obayashi R, Sakai T. Construction of contiguous tetrasubstituted carbon stereocenters by intramolecular crossed benzoin reactions catalyzed by N-Heterocyclic Carbene (NHC) organocatalyst. Adv Synth Catal 2012;354:3283-90.
42. Zhuo S, Zhu T, Zhou L, et al. Access to all-carbon spirocycles through a carbene and thiourea cocatalytic desymmetrization cascade reaction. Angew Chem Int Ed Engl 2019;58:1784-8.
43. Zhu T, Liu Y, Smetankova M, et al. Carbene-catalyzed desymmetrization and direct construction of arenes with all-carbon quaternary chiral center. Angew Chem 2019;131:15925-9.
44. Hu JM, Zhang JQ, Sun BB, et al. Chiral N-Heterocyclic-Carbene-Catalyzed cascade asymmetric desymmetrization of cyclopentenediones with enals: access to optically active 1,3-indandione derivatives. Org Lett 2019;21:8582-6.
45. Shee S, Mukherjee S, Gonnade RG, Biju AT. Enantioselective synthesis of tricyclic β-Lactones by NHC-Catalyzed desymmetrization of cyclic 1,3-Diketones. Org Lett 2020;22:5407-11.
46. Wang G, Zhang M, Guan Y, et al. Desymmetrization of cyclic 1,3-Diketones under N-Heterocyclic carbene organocatalysis: access to organofluorines with multiple stereogenic centers. Research 2021;2021:9867915.
47. Geng H, Chen X, Gui J, et al. Practical synthesis of C-1 deuterated aldehydes enabled by NHC catalysis. Nat Catal 2019;2:1071-7.
48. Zhang X, Chen Q, Song R, et al. Carbene-Catalyzed α,γ-Deuteration of enals under oxidative conditions. ACS Catal 2020;10:5475-82.
49. Sawama Y, Miki Y, Sajiki H. N-Heterocyclic carbene catalyzed deuteration of aldehydes in D2O. Synlett 2020;31:699-702.
50. Suresh P, Thamotharan S, Selva Ganesan S. NHC Organocatalysis in D2O for the highly diastereoselective synthesis of deuterated spiropyran analogues. ChemistrySelect 2021;6:2036-40.
51. Wang G, Fu Z, Huang W. Access to amide from aldimine via aerobic oxidative carbene catalysis and LiCl as cooperative lewis acid. Org Lett 2017;19:3362-5.
52. Zhang Y, Huang J, Guo Y, Li L, Fu Z, Huang W. Access to enantioenriched organosilanes from enals and β‐silyl enones: carbene organocatalysis. Angew Chem 2018;130:4684-8.
53. Wang G, Shi Q, Hu W, et al. Organocatalytic asymmetric N-sulfonyl amide C-N bond activation to access axially chiral biaryl amino acids. Nat Commun 2020;11:946.
54. Hu Z, Wei C, Shi Q, et al. Desymmetrization of N-Cbz glutarimides through N-heterocyclic carbene organocatalysis. Nat Commun 2022;13:4042.
55. Wang G, Zhang QC, Wei C, et al. Asymmetric Carbene-Catalyzed Oxidation of Functionalized Aldimines as 1,4-Dipoles. Angew Chem Int Ed Engl 2021;60:7913-9.
56. Wang G, Huang J, Zhang L, et al. N-heterocyclic carbene-catalyzed atroposelective synthesis of axially chiral 5-aryl 2-pyrones from enals. Sci China Chem 2022;65:1953-61.
57. Zhang C, Hooper JF, Lupton DW. N -Heterocyclic Carbene Catalysis via the α,β-Unsaturated Acyl Azolium. ACS Catal 2017;7:2583-96.
58. Ding A, Meazza M, Guo H, Yang JW, Rios R. New development in the enantioselective synthesis of spiro compounds. Chem Soc Rev 2018;47:5946-96.
59. Xu P, Yu J, Chen C, Cao Z, Zhou F, Zhou J. Catalytic enantioselective construction of spiro quaternary carbon stereocenters. ACS Catal 2019;9:1820-82.
60. Hong L, Wang R. Recent advances in asymmetric organocatalytic construction of 3,3′-spirocyclic oxindoles. Adv Synth Catal 2013;355:1023-52.
