REFERENCES
1. Freese R, Lysne V. Niacin - a scoping review for Nordic Nutrition Recommendations 2023. Food Nutr Res 2023;67.
2. Ahmadian A, Bouyeh M, Seidavi AR. A review of the effects of niacin on broiler productivity. World Poultry Sci J 2021;77:589-604.
3. Rennick A, Kalakeche R, Seel L, Shepler B. Nicotinic acid and nicotinamide: a review of their use for hyperphosphatemia in dialysis patients. Pharmacotherapy 2013;33:683-90.
5. Gasperi V, Sibilano M, Savini I, Catani MV. Niacin in the central nervous system: an update of biological aspects and clinical applications. Int J Mol Sci 2019;20:974.
6. Song Z, Wang G, Li W, Li S. Innate pharmacophore assisted selective C–H functionalization to therapeutically important nicotinamides. Org Chem Front 2019;6:1613-8.
7. Lisicki D, Nowak K, Orlińska B. Methods to produce nicotinic acid with potential industrial applications. Materials 2022;15:765.
8. Lisicki D, Talik D, Orlińska B. Oxidation of picoline with oxygen to nicotinic acid against Co2+, NHPI, and phosphonium or ammonium bromides. Catalysts 2023;13:1271.
9. Goto Y, Shimizu K, Murayama T, Ueda W. Hydrothermal synthesis of microporous W–V–O as an efficient catalyst for ammoxidation of 3-picoline. Appl Catal A Gen 2016;509:118-22.
10. Jiang F, Deng S, Niu L, Xiao G. Effect of supports on the structure and activity of vanadium-chromium oxide catalysts for ammoxidation of 3-picoline. Chinese J Catal 2013;34:1833-8.
11. Kalevaru VN, David Raju B, Venkat Rao V, Martin A. Preparation, characterisation and catalytic evaluation of MgF2 supported V2O5 catalysts for ammoxidation of 3-picoline. Appl Catal A Gen 2009;352:223-33.
13. Ghosh S, Acharyya SS, Sharma SK, Bal R. Fabrication of Ag/Mn3O4 nano-architectures for the one-step selective oxidation of 3-picoline to niacin: a key to vitamin B3 production. Catal Sci Technol 2016;6:4644-54.
14. Gao ZR, Yu H, Chen FJ, et al. Interchain-expanded extra-large-pore zeolites. Nature 2024;628:99-103.
15. Liu L, Lu J, Yang Y, et al. Dealuminated Beta zeolite reverses Ostwald ripening for durable copper nanoparticle catalysts. Science 2024;383:94-101.
16. Yu S, Liu Z, Lyu JM, et al. Engineering surface framework TiO6 single sites for unprecedented deep oxidative desulfurization. Natl Sci Rev 2024;11:nwae085.
17. Liu S, Lian X, Yue B, et al. Control of zeolite local polarity toward efficient xenon/krypton separation. J Am Chem Soc 2024;146:8335-42.
18. Gong X, Tuo J, Wang J, et al. Hydrophilic Ti-MWW for catalyzing epoxidation of allyl alcohol. Chem Synth 2024;4:14.
19. Tai W, Dai W, Wu G, Li L. A simple strategy for synthesis of b-axis-oriented MFI zeolite macro-nanosheets. Chem Synth 2023;3:38.
20. Sun MH, Gao SS, Hu ZY, et al. Boosting molecular diffusion following the generalized Murray’s Law by constructing hierarchical zeolites for maximized catalytic activity. Natl Sci Rev 2022;9:nwac236.
21. Liu X, Liu H, Chen L, et al. Construction of Ti-containing zeolite with highly enhanced catalytic activity by active species surface implanting strategy. Catal Today 2022;405-6:285-98.
22. Wang J, Zhang X, Chen L, Lu X, Xia Q, Zhou D. A nucleation-tuned mechanism to prepare centre-crossed zeolite lamellas by the rotating/static switch crystallization strategy. Inorg Chem Front 2022;9:889-901.
23. Chai Y, Dai W, Wu G, Guan N, Li L. Confinement in a zeolite and zeolite catalysis. Acc Chem Res 2021;54:2894-904.
24. Chen LH, Sun MH, Wang Z, Yang W, Xie Z, Su BL. Hierarchically structured zeolites: from design to application. Chem Rev 2020;120:11194-294.
25. Hu N, Li X, Liu S, et al. Enhanced stability of highly-dispersed copper catalyst supported by hierarchically porous carbon for long term selective hydrogenation. Chinese J Catal 2020;41:1081-90.
26. Peng Z, Chen L, Sun M, et al. A hierarchical zeolitic Murray material with a mass transfer advantage promotes catalytic efficiency improvement. Inorg Chem Front 2018;5:2829-35.
27. Zhou D, Tang B, Lu X, Wei X, Li K, Xia Q. Co2+-exchanged MOR and 5A zeolites as efficient solid catalysts for the epoxidation of styrene with air. Catal Commun 2014;45:124-8.
