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第 2 期陈学华，等: 水介质中离子液体催化合成四氢喹唑啉衍生物 ·455·

[5] YANG S H, KHADKA D B, CHO S H, et al. Virtual screening and of non-natural catalytic activity of pepsin: Highly efficient synthesis
synthesis of quinazolines as novel JAK2 inhibitors[J]. Bioorganic & of tetrahydroquinazolines[J]. Chinese Journal of Organic Chemistry
Medicinal Chemistry, 2011, 19(2): 968-977. (有机化学), 2020,40(9):2827-2835.
[6] SHEN Y B, WANG L X, SUN Y M, et al. Hexafluoroisopropanol- [16] WELTON T. Ionic liquids in catalysis[J]. Coordination Chemistry
3
mediated redox-neutral α-C (sp )-H functionalization of cyclic amines Reviews, 2004, 248(21/22/23/24): 2459-2477.
via hydride transfer[J]. The Journal of Organic Chemistry, 2019, [17] QURESHI Z S, DESHMUKH K M, BHANAGE B M. Applications
85(4): 1915-1926. of ionic liquids in organic synthesis and catalysis[J]. Clean Technologies
[7] ZHANG C, MURARKA S, SEIDEL D. Facile formation of cyclic and Environmental Policy, 2014, 16(8): 1487-1513.
aminals through a Brønsted acid-promoted redox process[J]. The Journal [18] HSU H Y, TSENG C C, MATII B, et al. Ionic liquid-supported
of Organic Chemistry, 2009, 74(1): 419-422. synthesis of dihydroquinazolines and tetrahydroquinazolines under
[8] MORI K, OHSHIMA Y, EHARA K, et al. Expeditious construction microwave irradiation[J]. Molecular Diversity, 2012, 16(2): 241-249.
of quinazolines via Brønsted acid-induced C–H activation: Further [19] RAO R N, MATII B, CHANDA K. Organic synthesis on ionic liquid
extension of “tert-amino effect”[J]. Chemistry Letters, 2009, 38(6): support: A new strategy for the liquid-phase organic synthesis
524-525. (LPOS)[M]. Green Sustainable Process for Chemical and Environmental
[9] RICHERS M T, ZHAO C, SEIDEL D. Selective copper (Ⅱ) acetate Engineering and Science, Elsevier, 2020: 49-104.
and potassium iodide catalyzed oxidation of aminals to dihydroquinazoline [20] LE Z G (乐长高), LIANG M (梁萌), CHEN Z S (陈中胜), et al.
and quinazolinone alkaloids[J]. Beilstein Journal of Organic Chemistry, Ionic liquid as an efficient medium for the synthesis of quinoline
2013, 9(1): 1194-1201. derivatives via α-chymotrypsin-catalyzed Friedländer condensation[J].
[10] PRAKASH G K S, PAPP A, MUNOZ S B, et al. Lewis acid catalyzed Molecules, 2017: 0762.
condensation-cyclization cascade: Direct synthesis of di/trifluoromethyl- [21] JAVAHERIAN M, SAGHANEZHAD S J. Synthesis, characterization
1, 2, 3, 4-tetrahydroquinazolines[J]. Chemistry-A European Journal, and applications of dicationic ionic liquids in organic synthesis[J].
2015, 21(28): 10170-10178. Mini-Reviews in Organic Chemistry, 2020, 17(4): 450-464.
[11] SHI D, DOU G, ZHOU Y. A novel and efficient synthesis of 1- [22] JAWALE D V, PRATAP U R, MULAY A A, et al. Synthesis of new
hydroxyquinazolin-4-ones via tin (Ⅱ) chloride induced cyclization of 2- dihydropyrimidinones catalysed by dicationic ionic liquid[J]. Journal
nitrobenzamides and ketones[J]. Synthesis, 2008, 2008(13): 2000-2006. of Chemical Sciences, 2011, 123(5): 645-655.
[12] HU W, YANG W, YAN T, et al. An efficient heterogeneous gold [23] ITOH T. Ionic liquids as tool to improve enzymatic organic synthesis[J].
(Ⅰ)-catalyzed intermolecular cycloaddition of 2-aminoaryl carbonyls Chemical Rreviews, 2017, 117(15): 10567-10607.
and internal alkynes leading to polyfunctionalized quinolines[J]. [24] WANG Y, YUE C, LI X, et al. Synthesis of a novel poly (ethylene
Synthetic Communications, 2019, 49(6): 799-813. glycol) grafted triethylamine functionalized dicationic ionic liquid
[13] ZHANG X, YE D, SUN H, et al. Microwave-assisted synthesis of and its application in one-pot synthesis of 2-amino-2-chromene
quinazolinone derivatives by efficient and rapid iron-catalyzed derivatives in water[J]. Comptes Rendus Chimie, 2016, 19(8): 1021-
cyclization in water[J]. Green Chemistry, 2009, 11(11): 1881-1888. 1026.
[14] LIU T, FU H. Copper-catalyzed synthesis of N-heterocyclic compounds[J]. [25] ZHANG L F (张利锋). Anion-cation cooperative catalysis by ionic
Synthesis, 2012, 44(18): 2805-2824. liquids on the carbonates participated green reactions[D]. Shanghai:
[15] JIANG G F (姜国芳), LU Y (卢粤), LI H X (李红霞), et al. New use East China Normal University (华东师范大学), 2011.

（上接第 440 页） in 3.5% NaCl[J]. International Journal of Biological Macromolecules,
2020, 152: 234-241.
[5] LIU L (刘琳), SU H Y (苏红玉), XING J J (邢锦娟), et al. [14] WANG J B (王京宝). Study on the synthesis and the corrosion inhibition
performance of triazine derivatives with surface activity[D]. Taiyuan:
Preparation and anticorrosion property of oxadiazole self-assembled North Central University (中北大学), 2020.
monolayers[J]. Fine Chemicals (精细化工), 2018, 35(10): 1784-1790.
[6] LI X H (李向红), DENG S D (邓书端), FU H (付惠), et al. [15] YOO S H, KIM Y W, SHIN J, et al. Effects of the chain length of
Corrosion inhibition of cationic cassava starch graft copolymer for tris(carboxyalkylamino) triazine on corrosion inhibition properties[J].
steel in HCl solution[J]. Fine Chemicals (精细化工), 2017, 34(3): Bulletin of the Korean Chemical Society, 2015, 36(1): 346-355.
319-325. [16] TU S, JIANG X H, ZHOU L M, et al. Synthesis of N-alkyl-4-(4-
[7] GUO L, OBOT I B, ZHENG X W, et al. Theoretical insight into an hydroxybut-2-ynyl)pyridinium bromides and their corrosion inhibition
empirical rule about organic corrosion inhibitors containing nitrogen, activities on X70 steel in 5 mol/L HCl[J]. Corrosion Science, 2012,
oxygen, and sulfur atoms[J]. Applied Surface Science, 2017, 406: 65: 13-25.
301-306. [17] SUEDILE F, ROBERT F, ROOS C, et al. Corrosion inhibition of
[8] ABD E H S M, ABD E W S, ABD E A E E, et al. Factors affecting zinc by Mansoa alliacea plant extract in sodium chloride media:
the corrosion behaviour of aluminum in acid solutions.Ⅰ. Nitrogen Extraction, characterization and electrochemical studies[J]. Electrochimica
and/or sulphur-containing organic compounds as corrosion inhibitors Acta, 2014, 133: 631-638.
for Al in HCl solutions[J]. Corrosion Science, 2013, 68: 1-13. [18] QIAN J H (钱建华), PAN X N (潘晓娜), ZHANG Q (张强), et al.
[9] VERMA D K, KHAN F. Corrosion inhibition of mild steel in Synthesis of 2,5-diaryl-1,3,4-thiadiazole corrosion inhibitors and their
hydrochloric acid using extract of glycine max leaves[J]. Research on performance[J]. CIESC Journal (化工学报), 2015, 66(7): 2737-2748.
Chemical Intermediates, 2016, 42(4): 3489-3506. [19] ABDALLAH M, HELAL E A, FOUDA A S. Aminopyrimidine
[10] GHAREBA S, OMANOVIC S. 12-Aminododecanoic acid as a derivatives as inhibitors for corrosion of 1018 carbon steel in nitric
corrosion inhibitor for carbon steel[J]. Electrochimica Acta, 2011, acid solution[J]. Corrosion Science, 2006, 48(7): 1639-1654.
56(11): 3890-3898. [20] ZHANG F, TANG Y M, CAO Z Y, et al. Performance and theoretical
[11] CHAUHAN D S, QURAISHI M A, NIK W B W, et al. Triazines as a study on corrosion inhibition of 2-(4-pyridyl)-benzimidazole for mild
potential class of corrosion inhibitors: Present scenario, challenges and steel in hydrochloric acid[J]. Corrosion Science, 2012, 61: 1-9.
future perspectives[J]. Journal of Molecular Liquids, 2021, 321: 114747. [21] WANG J G (王俊格), WANG Y G (王永刚), HUANG J L (黄加磊).
[12] YOO S H, KIM Y W, CHUNG K, et al. Corrosion inhibition A kind of tetracarboxylic acid metal rust inhibitor and its preparation
properties of triazine derivatives containing carboxylic acid and method and application: CN110592594B[P]. 2021-08-17.
amine groups in 1.0 mol/L HCl solution[J]. Industrial & Endineering [22] GECE G. The use of quantum chemical methods in corrosion inhibitor
Chemistry Research, 2013, 52(32): 10880-10889. studies[J]. Corrosion Science, 2008, 50(11): 2981-2992.
[13] CHAUHAN D S, MOUADEN K E L, QURAISHI M A, et al. [23] FU R (付蓉), LU T (卢天), CHEN F W (陈飞武). Comparing
Aminotriazolethiol-functionalized chitosan as a macromolecule-based methods for predicting the reactive site of electrophilic substitution[J].
bioinspired corrosion inhibitor for surface protection of stainless steel Acta Physical Chemistry (物理化学学报), 2014, 30(4): 628-639.

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