CN111333651A

CN111333651A - SCF-containing3Or SeCF3Heterocyclic compounds of (5) and process for preparing the same

Info

Publication number: CN111333651A
Application number: CN202010155172.1A
Authority: CN
Inventors: 徐涛; 徐显弘; 赵楠
Original assignee: Ocean University of China
Current assignee: Ocean University of China
Priority date: 2020-03-09
Filing date: 2020-03-09
Publication date: 2020-06-26
Anticipated expiration: 2040-03-09
Also published as: CN111333651B

Abstract

The invention discloses a method for preparing a high-purity Silicon Carbide (SCF) containing Silicon Carbide (SCF)₃Or SeCF₃After the chloro heterocyclic compound 1 is dissolved in an EtOH solution, 1.0-2.0 times of equivalent of thiourea or selenourea is added, and then the mixture is stirred for 1-8 hours at the temperature of 50-120 ℃ to react to obtain a compound 2; dissolving the compound 2 in Acetone or EA solution, and adding 2.0-4.0 times of equivalent of CF₃SO₂Na, 0.2-0.4 equivalent of Cu salt, then dropwise adding 2.0-4.0 equivalent of tBuOOH solution, reacting at 25-40 deg.C for 1.0-2.0 hr to obtain compound 3, i.e. the required SCF-containing₃Or SeCF₃The heterocyclic compound of (1). The compound synthesized by the method has great potential in treating diseases, each step of the synthetic route can be amplified, the yield can reach 85%, the synthetic route provided by the invention brings a simpler and more effective way for synthesizing the compound with biological activity, the yield is high, the compound can be prepared in a large scale, and the method has a very wide application prospect.

Description

SCF-containing3Or SeCF3Heterocyclic compounds of (5) and process for preparing the same

Technical Field

The invention relates to a method for producing a polymer containing SCF₃Or SeCF₃And a process for producing the same.

Background

Containing SCF₃Or SeCF₃The heterocyclic compound is a very important pharmaceutical chemical intermediate and has very high application value. It is widely found in all organisms, where adenine and guanine are the basic components of all nucleic acids, and thymine and cytosine constitute the four bases of DNA and RNA molecules. In addition, they play an important role in energy supply, metabolic regulation, coenzyme composition, and disease treatment. The purine drugs have significant therapeutic effects on acute lymphocytic leukemia, rheumatoid arthritis, ulcerative colitis/Crohn's disease, central nervous system diseases (CNS) such as multiple sclerosis, systemic lupus erythematosus, asthma, allograft rejection/graft-versus-host disease (GVHD), psoriasis, atopic dermatitis, eczema, urticaria, allergic rhinitis, myasthenia gravis, diabetes, idiopathic thrombocytopenic purpura, glomerulonephritis, cardiovascular diseases and cancer. The trifluoromethylthio group or the trifluoromethylseleno group is introduced into the molecule, the lipid solubility of the molecule can be adjusted in different ranges, the cell permeability of the molecule is properly increased, the cell metabolism and the biological activity of the molecule are effectively improved, and the effects of oxidation resistance, cancer resistance, bacteria resistance and virus resistance are obvious.

In recent years, organic chemists have been in the C-SCF₃Much work is done on the construction of keys. However, with respect to C-SeCF₃Few studies of bond construction have been reported, although SeCF₃Such as SCF₃May also have potential biological activity. Various methods have been used to synthesize SCF-containing polymers₃In contrast, trifluoromethylselenylation is much less likely because the selenium species are generally very toxic and unstable to air or water.

Due to C-SeCF₃Bond formation is challenging, and the synthesis of the trifloxyselenated heterocyclic compound reported previously is mainly obtained by coupling reaction catalyzed by transition metal by using boric acid and aryl halide as substrates. But more complex to prepare containing SCF₃Or SeCF₃The heterocyclic compounds of (a) still have certain difficulties and the adaptability of the substrate is not wide enough.

Disclosure of Invention

To solve the above technical problems, the present invention provides a SCF-containing polymer₃Or SeCF₃To a process for the preparation thereof, to enable large-scale preparation of SCF-containing compounds₃Or SeCF₃The object of the heterocyclic compound of (1).

In order to achieve the purpose, the technical scheme of the invention is as follows:

SCF-containing₃Or SeCF₃The heterocyclic compound of (a), which has the following general formula:

wherein Y ═ S or Se;

x ═ C or N;

a ═ C or N;

B＝N；

e ═ C or N;

R¹methyl, ethyl, isopropyl, isobutyl, benzyl, ethan-1-ol, cyclopropylmethyl, allyl, propargyl, (2, 2-dimethyltetrahydrofuran [3,4-d ]][1,3]Dioxazol-4-yl) methanol, 2- (acetoxymethyl) tetrahydrofuran-3, 4-diacetic acid diacetate, 2- ((1H-imidazol-1-yl) methoxy) ethylEthyl acetate, 2- ((1H-imidazol-1-yl) methoxy) propane-1, 3-diacetic acid diacetate, and similar alkyl groups;

R²h, cyclohexyl or benzyl, and similar alkyl groups;

R³h, amines or acetamides and similar alkyl groups;

R⁴me, Et or Bn and similar alkyl groups.

Preferably, the compound is selected from the compounds of the following structures:

SCF-containing₃Or SeCF₃The process for preparing a heterocyclic compound of (1), comprising the steps of:

(1) dissolving the chloro heterocyclic compound 1 in an EtOH solution, adding 1.0-2.0 times of equivalent of thiourea or selenourea, and then stirring for 1-8 hours at 50-120 ℃ to react to obtain a compound 2;

(2) dissolving the compound 2 in Acetone or EA solution, and adding 2.0-4.0 times of equivalent of CF₃SO₂Na, 0.2-0.4 equivalent of Cu salt, then dropwise adding 2.0-4.0 equivalent of tBuOOH solution, reacting at 25-40 deg.C for 1.0-2.0 hr to obtain compound 3, i.e. the required SCF-containing₃Or SeCF₃The heterocyclic compound of (1);

the specific reaction process is as follows:

in the scheme, in the step (1), thiourea or selenourea in 1.5 times equivalent of the chloro-heterocyclic compound 1 is added at 100 ℃.

In the scheme, in the step (1), after the reaction is finished, the reaction product is directly filtered, and the precipitate is washed by anhydrous EtOH and is dried in a spinning mode to obtain the compound 2.

In the above scheme, in the step (2), 2.0 times equivalent of CF is added to Acetone or EA solution of the compound 2 at 40 deg.C₃SO₂Na, 0.2 equivalents of Cu salt, then 2.0 equivalents of tBuOOH solution were added dropwise.

In the above scheme, in the step (2), after the reaction is completed, the reaction solution is concentrated under reduced pressure and purified by silica gel column chromatography to obtain the compound 3.

Through the technical scheme, the invention provides the SCF-containing gas₃Or SeCF₃The preparation method of the heterocyclic compound has high applicability and can be widely applied to the synthesis of different substituted heterocyclic compounds. In contrast to previous studies, the present invention provides synthetic SCF-containing compositions₃Or SeCF₃The heterocyclic compound has the advantages of more environment-friendly reagent, simpler and more convenient operation, high yield and large-scale production. The trifluoromethylthio group or the trifluoromethylseleno group is introduced into the molecule, the lipid solubility of the molecule can be adjusted in different ranges, the cell permeability of the molecule is properly increased, the cell metabolism and the biological activity of the molecule are effectively improved, and the effects of oxidation resistance, cancer resistance, bacteria resistance and virus resistance are obvious.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below.

The invention provides a method for preparing a high-purity SCF₃Or SeCF₃The preparation method of the heterocyclic compound of (4) includes the following specific examples:

example 1:

to a solution of compound 1b (338mg,2.0mmol) in EtOH (10mL) was added commercial thiourea (228mg,3mmol) and the reaction heated to 100 deg.C and stirred at reflux for 3 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain Compound 2b, 317mg (white solid) in a yield of 95%.

¹H NMR(400MHz,DMSO-d₆)δ8.23(s,1H),8.19(s,1H),3.75(s,3H).¹³C NMR(100MHz,DMSO-d₆)δ176.2,145.4,145.0,144.2,120.3,30.4.HRMS calcd.For C₆H₅N₄S^-[M-H]^-:165.0240.Found:165.0232.

A solution of Compound 2b in Acetone was prepared, and CF was added to a solution of Compound 2b (83mg,0.5mmol) in Acetone (3mL)₃SO₂Na (156mg, 1.0mmol), CuI (19mg,0.1mmol), then tBuOOH solution (160. mu.L, 1.0mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3b, 79mg (colorless oil), with a yield of 68%.

3b:R_f＝0.5(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.90(s,1H),8.11(s,1H),3.93(s,3H).¹³C NMR(100MHz,Chloroform-d)δ152.4,152.0,145.0,132.4,128.2(q,J＝307Hz),30.3.¹⁹F NMR(376MHz,Chloroform-d)δ-37.53.HRMS calcd.For C₇H₆F₃N₄S⁺[M+H]⁺:235.02598.Found:235.02603.

Example 2:

to a solution of compound 1c (169mg,1.0mmol) in EtOH (10mL) was added commercial thiourea (114mg,1.5mmol), and the reaction was heated to 100 ℃ and stirred under reflux for 2 h. After the reaction was finished by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain Compound 2c in a yield of 66% as 110mg (white solid).

¹H NMR(400MHz,DMSO-d₆)δ8.39(s,1H),8.13(s,1H),4.19(s,3H).¹³C NMR(100MHz,DMSO-d₆)δ170.9,153.3,149.0,145.4,126.4,35.3.HRMS calcd.For C₆H₅N₄S^-[M-H]^-:165.02349.Found:165.02404.

A solution of Compound 2c in Acetone was prepared and CF was added to a solution of Compound 2c (90mg,0.54mmol) in Acetone (3mL)₃SO₂Na (169mg, 1.08mmol), CuI (19mg,0.108mmol), then tBuOOH solution (170. mu.L, 1.08mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3c, 72mg (yellow oil), yield 57%.

3c:R_f＝0.3(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ9.07(s,1H),8.28(s,1H),4.15(s,3H).¹³C NMR(100MHz,Chloroform-d)δ161.2,153.0,150.2,141.2,128.1(q,J＝309Hz),126.3,34.9.¹⁹FNMR(376MHz,Chloroform-d)δ-37.72.HRMS calcd.For C₇H₆F₃N₄S⁺[M+H]⁺:235.02653.Found:235.02598.

Example 3:

to a solution of compound 1d (184mg,1.0mmol) in EtOH (10mL) was added commercial thiourea (114mg,1.5mmol), and the reaction was heated to 50 ℃ and stirred at reflux for 2 h. After the reaction was finished by TCL detection, the reaction solution was filtered, and the precipitate was washed with anhydrous EtOH, and then dried by spinning to obtain Compound 2d, 180mg (white solid) in 99% yield.

¹H NMR(400MHz,DMSO-d₆)δ8.31(s,1H),8.19(s,1H),4.19(q,J＝7.3Hz,2H),1.40(t,J＝7.3Hz,3H).¹³C NMR(100MHz,DMSO-d₆)δ176.3,145.3,144.5,143.3,135.6,39.2,15.8.HRMS calcd.For C₇H₉N₄S⁺[M+H]⁺:181.05424.Found:181.05421.

A solution of Compound 2d in Acetone was prepared, and CF was added to a solution of Compound 2d (181mg,1.0mmol) in Acetone (3mL)₃SO₂Na (312mg, 2.0mmol), CuI (38mg,0.2mmol), then tBuOOH solution (340. mu.L, 2.0mmol) was added dropwise and reacted at 30 ℃ for 1.0 hour. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3d, 151mg (white solid) in 62% yield.

3d:R_f＝0.6(Hex:Ethyl Acetate＝1:2)

¹H NMR(400MHz,Chloroform-d)δ8.88(s,1H),8.12(s,1H),4.36(q,J＝7.3Hz,2H),1.58(t,J＝7.3Hz,3H).¹³C NMR(100MHz,Chloroform-d)δ152.2,151.9,144.2,132.5,128.2(q,J＝309Hz),39.6,15.4.¹⁹F NMR(376MHz,Chloroform-d)δ-37.53.HRMS calcd.ForC₈H₈N₄F₃S⁺[M+H]⁺:249.04163.Found:249.04161.

Example 4:

to a solution of compound 1e (262mg,1.4mmol) in EtOH (10mL) was added commercial thiourea (162mg,2.1mmol), and the reaction was heated to 110 deg.C and stirred at reflux for 2 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain Compound 2e in a yield of 180mg (white solid) at 71%.

¹H NMR(400MHz,DMSO-d₆)δ8.50(s,1H),8.16(s,1H),4.71(q,J＝7.1Hz,2H),1.41(t,J＝7.1Hz,3H).¹³C NMR(100MHz,DMSO-d₆)δ170.3,153.7,148.2,145.4,125.7,42.3,18.3.HRMS calcd.For C₇H₉N₄S⁺[M+H]⁺:181.05424.Found:181.05432.

A solution of Compound 2e in Acetone was prepared and CF was added to a solution of Compound 2e (60mg,0.3mmol) in Acetone (3mL)₃SO₂Na (94mg,0.6mmol), CuI (11mg,0.06mmol), then tBuOOH solution (100. mu.L, 0.6mmol) was added dropwise and reacted at 25 ℃ for 2.0 hours. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3e, 36mg (yellow oil) in 49% yield.

3e:R_f＝0.4(Hex:Ethyl Acetate＝1:2)

¹H NMR(400MHz,Chloroform-d)δ9.06(s,1H),8.35(s,1H),4.50(q,J＝7.3Hz,2H),1.59(t,J＝7.3Hz,3H).¹³C NMR(100MHz,Chloroform-d)δ152.8,149.0,141.4,132.5,128.1(q,J＝309Hz),42.9,16.8.¹⁹F NMR(376MHz,Chloroform-d)δ-37.41.HRMS calcd.ForC₈H₈N₄F₃S⁺[M+H]⁺:249.04163.Found:249.04163.

Example 5:

to a solution of compound 1j (600mg,3.0mmol) in EtOH (10mL) was added commercial thiourea (342mg,4.5mmol), and the reaction was heated to 120 ℃ and stirred at reflux for 2 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain 2j, 150mg (white solid) in a yield of 25%.

¹H NMR(400MHz,DMSO-d₆)δ8.24(s,1H),8.19(s,1H),5.02(s,1H),4.20(t,J＝5.2Hz,2H),3.72(d,J＝10.2Hz,2H).¹³C NMR(100MHz,DMSO-d₆)δ176.1,145.3,144.8,144.1,135.5,59.7,46.7.HRMS calcd.For C₇H₈ON₄NaS⁺[M+Na]⁺:219.0311.Found:219.0312.

A solution of Compound 2j in Acetone was prepared and CF was added to a solution of Compound 2j (140mg,0.7mmol) in Acetone (3mL)₃SO₂Na (387mg, 1.4mmol), CuI (27mg,0.14mmol) and tBuOOH solution (400. mu.L, 1.4mmol) were added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3j, 150mg (yellow oil) in 81% yield.

3j:R_f＝0.3(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,DMSO-d₆)δ8.92(s,1H),8.64(s,1H),4.35(t,J＝5.2Hz,2H),3.79(t,J＝5.2Hz,2H).¹³C NMR(100MHz,DMSO-d₆)δ152.2,151.0,149.2,148.4,132.1,128.9(q,J＝308Hz),59.4,47.0.¹⁹F NMR(376MHz,DMSO-d₆)δ-36.84.HRMS calcd.For C₈H₈N₄F₃OS⁺[M+H]⁺:265.0365.Found:265.0367.

Example 6:

to a solution of compound 1k (150mg,0.7mmol) in EtOH (5mL) was added commercial thiourea (80mg,1.05mmol), and the reaction was heated to 100 deg.C and stirred at reflux for 3 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain 2k, 122mg (white solid) in 83% yield.

¹H NMR(400MHz,DMSO-d₆)δ8.31(s,1H),8.16(s,1H),4.01–3.96(m,2H),1.28-1.20(m,1H),0.50-0.46(m,2H),0.40-0.38(m,2H).¹³C NMR(100MHz,DMSO-d₆)δ176.3,145.4,144.5,143.4,135.5,48.3,11.9,4.3.HRMS calcd.For C₉H₁₁N₄S⁺[M+H]⁺:207.0699.Found:207.0703.

A solution of Compound 2k in Acetone was prepared and CF was added to a solution of Compound 2k (90mg,0.4mmol) in Acetone (3mL)₃SO₂Na (125mg, 0.8mmol), CuI (15mg,0.08mmol), then tBuOOH solution (130. mu.L, 0.8mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3k, 59mg (white solid) in a yield of 54%.

3k:R_f＝0.6(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.87(s,1H),8.19(s,1H),4.16–4.12(m,2H),1.38–1.30(m,1H),0.73–0.68(m,2H),0.49(dd,J＝5.6,4.2Hz,2H).¹³C NMR(100MHz,Chloroform-d)δ152.2,151.8,150.3,144.3,132.1,128.4(q,J＝308Hz),49.0,11.1,4.5.¹⁹F NMR(376MHz,Chloroform-d)δ-37.52.HRMS calcd.For C₁₀H₁₀N₄F₃S⁺[M+H]⁺:275.0573.Found:275.0576.

Example 7:

1l of compound in EtOH was prepared, and to 1l (280mg,1.4mmol) of compound in EtOH (5mL) was added commercially available thiourea (152mg,2.1mmol), and the reaction was heated to 100 ℃ and stirred under reflux for 2 hours. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and spin-dried to obtain 2l of compound (267 mg, white solid) in 98% yield.

¹H NMR(400MHz,DMSO-d₆)δ8.27(s,1H),8.19(s,1H),6.09-6.02(m,1H),5.22(d,J＝10.3Hz,1H),5.10–5.00(m,1H),4.85–4.78(m,2H).¹³C NMR(100MHz,DMSO-d₆)δ176.4,145.6,144.6,143.5,135.4,133.5,118.3,46.0.HRMS calcd.For C₈H₉N₄S⁺[M+H]⁺:193.0542.Found:193.0546.

A solution of compound 2l Acetone was prepared and CF was added to a solution of compound 2l (193mg,1.0mmol) in Acetone (3mL)₃SO₂Na (624mg, 4.0mmol), CuI (76mg,0.4mmol), then tBuOOH solution (640. mu.L, 4.0mmol) was added dropwise and reacted at 25 ℃ for 2.0 hours. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain 3l of compound (121 mg) (colorless oil) in 46% yield.

3l:R_f＝0.6(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.89(s,1H),8.08(s,1H),6.04(ddt,J＝16.4,10.2,5.8Hz,1H),5.37(d,J＝10.1Hz,1H),5.26(d,J＝17.1Hz,1H),4.90(d,J＝5.8Hz,2H).¹³C NMR(100MHz,Chloroform-d)δ152.3,152.1,150.2,144.5,131.9,131.0,128.3(q,J＝309Hz),120.1,46.2.¹⁹F NMR(376MHz,Chloroform-d)δ-37.52.HRMS calcd.For C₉H₈N₄F₃S⁺[M+H]⁺:261.0416.Found:261.0421.

Example 8:

to a solution of compound 1m in EtOH (5mL) was added commercial thiourea (114mg,1.5mmol) and the reaction was heated to 100 ℃ and stirred at reflux for 3 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and spin-dried to obtain 2m of compound (191 mg as a white solid) in a yield of 98%.

¹H NMR(400MHz,DMSO-d₆)δ8.34(s,1H),8.23(s,1H),5.07(s,2H),3.54-3.52(m,1H).¹³C NMR(100MHz,DMSO-d₆)δ176.5,145.9,144.3,142.9,135.4,78.2,77.0,33.5.HRMScalcd.For C₈H₄N₄S⁺[M+H]⁺:191.0386.Found:191.0389.

A solution of Compound 2m in Acetone was prepared, and CF was added to a solution of Compound 2m (172mg,0.9mmol) in Acetone (3mL)₃SO₂Na (562mg, 3.6mmol), CuI (68mg,0.36mmol), then tBuOOH solution (600. mu.L, 3.6mmol) was added dropwise and reacted at 25 ℃ for 2.0 hours. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3m, 130mg (white solid) in a yield of 56%.

3m:R_f＝0.8(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.90(s,1H),8.29(s,1H),5.05(d,J＝2.6Hz,2H),2.57(t,J＝2.5Hz,1H).¹³C NMR(100MHz,Chloroform-d)δ152.5,152.4,143.8,140.9,132.0,128.2(q,J＝307Hz),76.0,75.1,33.6.¹⁹F NMR(376MHz,Chloroform-d)δ-37.50.HRMS calcd.For C₉H₆N₄F₃S⁺[M+H]⁺:259.0260.Found:259.0264.

Example 9:

to a solution of compound 1n (286mg,1.0mmol) in EtOH (5mL) was added commercial thiourea (114mg,1.5mmol), and the reaction was heated to 50 deg.C and stirred at reflux for 8 h. After the reaction was finished by TCL detection, the reaction solution was filtered, and the precipitate was washed with anhydrous EtOH, and then dried by spinning to obtain 2n, 239mg (white solid) and 85% yield.

¹H NMR(400MHz,DMSO-d₆)δ8.57(s,1H),8.23(s,1H),5.91–5.86(m,1H),4.67(d,J＝36.8Hz,1H),4.47(t,J＝5.2Hz,1H),4.36–4.20(m,1H),4.13(d,J＝4.1Hz,1H),3.95(d,J＝3.8Hz,1H),3.66(dd,J＝12.1,3.9Hz,1H),3.56(dd,J＝12.0,3.9Hz,1H),3.43(q,J＝7.1Hz,1H).¹³C NMR(100MHz,DMSO-d₆)δ176.5,145.9,144.4,141.7,135.8,88.1,86.1,74.8,70.6,61.6.HRMS calcd.For C₁₀H₁₁O₄N₄S^-[M-H]^-:283.0507.Found:283.0510.

A solution of Compound 2n in Acetone was prepared and CF was added to a solution of Compound 2n (100mg,0.35mmol) in Acetone (3mL)₃SO₂Na (109mg, 0.7mmol), CuI (13mg,0.07mmol), then tBuOOH solution (110. mu.L, 0.7mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3n, 51mg (colorless oil) in 37% yield.

3n:R_f＝0.6(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.85(s,1H),8.22(s,1H),5.98(d,J＝4.5Hz,1H),5.22–5.17(m,1H),5.13–5.08(m,1H),4.56–4.52(m,1H),3.99–3.93(m,1H),3.81(dd,J＝12.6,2.0Hz,1H),1.64(s,3H),1.37(s,3H).¹³C NMR(100MHz,Chloroform-d)δ153.8,151.8,148.8,144.2,133.1,128.0(q,J＝309Hz),114.5,94.2,86.4,83.3,81.6,63.3,27.6,25.3.¹⁹F NMR(376MHz,Chloroform-d)δ-37.48.HRMS calcd.For C₁₄H₁₄N₄F₃O₄S^-[M-H]^-:391.0693.Found:391.0692.

Example 10:

to a solution of compound 1o (140mg,0.55mmol) in EtOH (5mL) was added commercial thiourea (84mg,1.1mmol), and the reaction was heated to 100 ℃ and stirred under reflux for 8 hours. After the reaction was finished by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and spin-dried to obtain 2o, 90mg (white solid) of compound in 66% yield.

¹H NMR(400MHz,DMSO-d₆)δ8.14(s,1H),3.70(s,3H),2.93(t,J＝13.1Hz,1H),1.91(d,J＝12.4Hz,2H),1.81(d,J＝10.1Hz,2H),1.75–1.69(m,1H),1.62–1.52(m,2H),1.41(s,2H),1.30–1.22(m,1H).¹³C NMR(100MHz,DMSO-d₆)δ174.7,158.7,145.6,144.8,134.5,35.8,31.2,29.1,26.0,19.1.HRMS calcd.For C₁₂H₁₆N₄NaS⁺[M+Na]⁺:271.0988.Found:271.0989.

A solution of Compound 2O in Acetone was prepared and CF was added to a solution of Compound 2O (70mg,0.3mmol) in Acetone (3mL)₃SO₂Na (188mg, 1.2mmol), CuI (22mg,0.12mmol), then tBuOOH solution (200. mu.L, 1.2mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3o, 49mg (colorless oil) in 52% yield.

3o:R_f＝0.7(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.79(s,1H),3.82(s,3H),2.88(tt,J＝11.9,3.3Hz,1H),2.00–1.91(m,4H),1.79(q,J＝10.7,9.3Hz,4H),1.45–1.38(m,2H).¹³C NMR(100MHz,Chloroform-d)δ161.9,151.9,151.3,149.2,132.0,128.6(q,J＝308Hz),36.9,30.9,28.8,26.0,25.6.¹⁹F NMR(376MHz,Chloroform-d)δ-37.58.HRMS calcd.ForC₁₃H₁₆N₄F₃S⁺[M+H]⁺:317.1042.Found:317.1046.

Example 11:

to a solution of compound 1s (170mg,0.7mmol) in EtOH (5mL) was added commercial thiourea (84mg,1.1mmol), and the reaction was heated to 120 ℃ and stirred under reflux for 4 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain Compound 2s, 112mg (white solid) in a yield of 67%.

¹H NMR(400MHz,DMSO-d₆)δ8.19(s,2H),7.32–7.23(m,3H),7.22–7.17(m,2H),5.49(s,2H).¹³C NMR(100MHz,DMSO-d₆)δ179.4,147.6,147.2,137.3,137.0,129.2,128.3,128.1,117.8,50.9.HRMS calcd.For C₁₂H₉N₄S^-[M-H]^-:241.0553.Found:241.0549.

A solution of Compound 2s in Acetone was prepared, and CF was added to a solution of Compound 2s (90mg,0.37mmol) in Acetone (3mL)₃SO₂Na (115mg, 0.74mmol), CuI (13mg,0.07mmol), then tBuOOH solution (120. mu.L, 0.74mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3s, 74mg (colorless oil) in 65% yield.

3s:R_f＝0.8(Hex:Ethyl Acetate＝3:1)

¹H NMR(400MHz,Chloroform-d)δ8.91(s,1H),8.08(s,1H),7.35–7.30(m,5H),5.66(s,2H).¹³C NMR(100MHz,Chloroform-d)δ156.2,154.5,151.9,135.7,131.6,128.9,128.4,128.3,128.0(q,J＝308Hz),113.3,51.4.¹⁹F NMR(376MHz,Chloroform-d)δ-37.28.HRMS calcd.For C₁₃H₁₀N₄F₃S⁺[M+H]⁺:311.0572.Found:311.0575.

Example 12:

to a solution of compound 1t (147mg,0.6mmol) in EtOH (5mL) was added commercially available thiourea (69mg,0.9mmol), and the reaction was heated to 120 ℃ and stirred under reflux for 4 h. After the reaction was finished by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain 2t, 82mg (yellow solid) as a 57% yield.

¹H NMR(400MHz,DMSO-d₆)δ8.81(s,1H),7.98(s,1H),7.35–7.28(m,5H),5.49(s,2H).¹³C NMR(100MHz,DMSO-d₆)δ181.9,153.9,146.0,136.5,132.1,129.2,128.8,128.7,117.8,57.0.HRMS calcd.For C₁₂H₉N₄S^-[M-H]^-:241.0553.Found:241.0549.

A solution of Compound 2t in Acetone was prepared, and CF was added to a solution of Compound 2t (70mg,0.29mmol) in Acetone (3mL)₃SO₂Na (90mg, 0.58mmol), CuI (11mg,0.058mmol), then tBuOOH solution (100. mu.L, 0.58mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3t, 54mg (colorless oil) in a yield of 60%.

3t:R_f＝0.8(Hex:Ethyl Acetate＝3:1)

¹H NMR(400MHz,Chloroform-d)δ8.96(s,1H),7.96(s,1H),7.39(h,J＝4.4,3.9Hz,5H),5.62(s,2H).¹³C NMR(100MHz,Chloroform-d)δ158.4,158.2,154.7,138.8,133.7,129.4,128.9,127.8(q,J＝308Hz),122.9,112.5,58.9.¹⁹F NMR(376MHz,Chloroform-d)δ-37.34.HRMS calcd.For C₁₃H₁₀N₄F₃S⁺[M+H]⁺:311.0572.Found:311.0575.

Example 13:

to a solution of compound 1u (259mg,1.0mmol) in EtOH (5mL) was added commercial thiourea (152mg,2.0mmol), and the reaction was heated to 120 ℃ and stirred at reflux for 2 hours. After the reaction was finished by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and spin-dried to obtain 2u, 176mg (white solid) of compound with a yield of 69%.

¹H NMR(400MHz,DMSO-d₆)δ8.21(s,1H),8.02(d,J＝8.1Hz,1H),7.77(d,J＝8.3Hz,1H),7.53(t,J＝7.7Hz,1H),7.40(t,J＝7.7Hz,1H),4.37(d,J＝7.5Hz,2H),2.08(hept,J＝6.9Hz,1H),0.87(d,J＝6.6Hz,6H).¹³C NMR(100MHz,DMSO-d₆)δ176.5,146.0,140.7,137.4,129.4,129.1,124.6,122.0,117.8,114.3,54.0,28.9,19.8.HRMS calcd.For C₁₄H₁₆N₃S⁺[M+H]⁺:258.1059.Found:258.1063.

A solution of compound 2u in Acetone was prepared, and CF (CF) was added to a solution of compound 2u (154mg,0.6mmol) in Acetone (3mL)₃SO₂Na (187mg, 1.2mmol), CuI (23mg,0.12mmol), then tBuOOH solution (200. mu.L, 1.2mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3u, 109mg (white solid) in a yield of 56%.

3u:R_f＝0.8(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.25(dd,J＝8.2,1.5Hz,1H),8.05(dd,J＝8.1,1.5Hz,1H),7.89(s,1H),7.71–7.60(m,2H),4.33(d,J＝7.4Hz,2H),2.33(dt,J＝13.7,6.9Hz,1H),1.03(d,J＝6.6Hz,6H).¹³C NMR(100MHz,Chloroform-d)δ145.0,144.7,143.9,136.8,132.6,131.1,129.2(q,J＝308Hz),127.9,127.2,120.1,117.6,55.3,28.9,19.9.¹⁹FNMR(376MHz,Chloroform-d)δ-38.10.HRMS calcd.For C₁₅H₁₅N₃F₃S⁺[M+H]⁺:326.0933.Found:326.0937.

Example 14:

to a solution of compound 1z (329mg,1.0mmol) in EtOH (5mL) was added commercial thiourea (114mg,1.5mmol), and the reaction was heated to 80 ℃ and stirred at reflux for 3 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain 2z, 191mg (yellow solid) in 58% yield.

¹H NMR(400MHz,DMSO-d₆)δ12.06(s,1H),8.34(s,1H),5.50(s,2H),4.06(s,2H),3.69(s,2H),2.21(s,3H),1.94(s,3H).¹³C NMR(100MHz,DMSO-d₆)δ174.6,174.5,17.8,148.1,145.9,143.3,132.2,73.2,67.4,63.2,24.4,21.1.

A solution of compound 2z in Acetone was prepared and CF was added to a solution of compound 2z (100mg,0.3mmol) in Acetone (3mL)₃SO₂Na (94mg,0.6mmol), CuI (11mg,0.06mmol), then tBuOOH solution (100. mu.L, 0.6mmol) was added dropwise and reacted at 35 ℃ for 2.0 hours. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3z, 86mg (yellow solid) in 73% yield.

3z:R_f＝0.3(Hex:Ethyl Acetate＝2:1)

¹H NMR(400MHz,Chloroform-d)δ8.32(s,1H),8.11(s,1H),5.63(s,2H),4.19(s,2H),3.79(s,2H),2.58(s,3H),2.02(s,3H).¹³C NMR(100MHz,Chloroform-d)δ171.4,170.9,153.4,152.7,151.6,144.2,128.0(q,J＝308Hz),127.9,73.4,68.4,62.9,25.4,21.0.¹⁹FNMR(376MHz,Chloroform-d)δ-37.46.HRMS calcd.For C₁₃H₁₄N₅F₃O₄NaS⁺[M+Na]⁺:416.0616.Found:416.0611.

Example 15:

to a solution of compound 1aa (401mg,1.0mmol) in EtOH (5mL) was added commercial thiourea (114mg,1.5mmol), and the reaction was heated to 60 ℃ and stirred under reflux for 3 h. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 2aa, 153mg (yellow solid) in a yield of 38%.

¹H NMR(400MHz,DMSO-d₆)δ12.04(s,1H),8.33(s,1H),5.56(s,2H),4.09(dd,J＝11.4,3.1Hz,2H),4.04(dt,J＝7.0,3.5Hz,1H),3.96(dd,J＝11.3,6.0Hz,2H),2.22(s,3H),1.87(s,6H).¹³C NMR(100MHz,DMSO-d₆)δ174.6,174.6,170.6,148.1,145.9,143.3,132.4,74.9,72.6,63.3,24.4,20.8.HRMS calcd.For C₁₅H₁₉N₅NaO₆S⁺[M+Na]⁺:420.0948.Found:420.0947.

A solution of Compound 2aa in Acetone was prepared and CF was added to a solution of Compound 2aa (120mg,0.3mmol) in Acetone (3mL)₃SO₂Na (94mg,0.6mmol), CuI (11mg,0.06mmol), then tBuOOH solution (100. mu.L, 0.6mmol) was added dropwise and reacted at 40 ℃ for 1.5 hours. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3aa, 93mg (colorless oil) in 67% yield.

3aa:R_f＝0.3(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.23(s,1H),8.09(s,1H),5.68(s,2H),4.20–4.14(m,2H),4.12–4.03(m,3H),2.57(s,3H),1.96(s,6H).¹³C NMR(100MHz,Chloroform-d)δ171.2,170.6,153.4,152.8,151.4,144.0,128.0(q,J＝308Hz),127.8,75.4,72.2,63.1,25.3,20.7.¹⁹F NMR(376MHz,Chloroform-d)δ-37.47.HRMS calcd.For C₁₆H₁₈F₃N₅NaO₆S⁺[M+Na]⁺:488.0822.Found:488.0825.

Example 16:

to a solution of compound 1ab (415mg,1mmol) in EtOH (10mL) was added commercially available thiourea (114mg,1.5mmol), and the reaction was heated to 100 ℃ and stirred under reflux for 8 hours. After the reaction was completed by TCL detection, the reaction mixture was filtered, and the precipitate was washed with anhydrous EtOH, followed by spin-drying to obtain compound 2ab in a yield of 75% in 307mg (white solid).

¹H NMR(400MHz,DMSO-d₆)δ8.47(s,1H),8.21(s,1H),6.17(d,J＝5.5Hz,1H),5.86(t,J＝5.7Hz,1H),5.52–5.48(m,1H),4.38–4.32(m,2H),4.22(dd,J＝12.6,6.4Hz,1H),2.08(s,3H),1.99(d,J＝3.6Hz,6H).¹³C NMR(100MHz,DMSO-d₆)δ176.8,170.6,169.9,169.8,146.1,144.2,142.3,136.2,86.2,80.2,72.8,70.5,63.3,21.0,20.9,20.7.HRMScalcd.For C₁₆H₁₈N₄NaO₇S⁺[M+Na]⁺:433.0788.Found:433.07890.

A solution of Compound 2ab in Acetone was prepared, and CF (2 ab (140mg,0.34 mmol)) was added to a solution of Compound 2ab in Acetone (3mL)₃SO₂Na (106mg, 0.68mmol), CuI (13mg,0.07mmol), then tBuOOH solution (110. mu.L, 0.68mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3ab, 103mg (colorless oil), with a yield of 63%.

3ab:R_f＝0.7(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.86(s,1H),8.23(s,1H),6.21(d,J＝5.1Hz,1H),5.92(t,J＝5.3Hz,1H),5.64–5.60(m,1H),4.47–4.34(m,3H),2.13(s,3H),2.09(s,3H),2.05(s,3H).¹³C NMR(100MHz,Chloroform-d)δ170.4,169.7,169.5,152.8,152.5,149.7,143.1,132.5,128.2(q,J＝308Hz),86.8,80.6,70.6,63.0,20.8,20.6,20.4.¹⁹F NMR(376MHz,Chloroform-d)δ-37.53.HRMS calcd.For C₁₇H₁₇F₃N₄NaO₇S⁺[M+Na]⁺:501.0662.Found:501.0663.

Example 17:

to a solution of compound 1ad (244mg,1.0mmol) in EtOH (5mL) was added commercial selenourea (123mg,1.0mmol), and the reaction was heated to 120 ℃ and stirred at reflux for 2 h. After the reaction was finished by TCL detection, the reaction solution was filtered, and the precipitate was washed with anhydrous EtOH, and then dried by spinning to obtain 2ad, 235mg (pale green solid) with a yield of 82%.

¹H NMR(400MHz,DMSO-d₆)δ8.57(s,1H),8.25(s,1H),7.32(q,J＝6.7Hz,5H),5.41(s,2H).¹³C NMR(100MHz,DMSO-d₆)δ174.3,146.3,144.7,143.7,139.4,136.8,129.3,128.5,128.1,47.2.HRMS calcd.For C₁₂H₉N₄Se^-[M-H]^-:288.9998.Found:288.9996.

A solution of Compound 2ad in EA was prepared, and CF was added to a solution of Compound 2ad (57mg,0.2mmol) in EA (3mL)₃SO₂Na (62mg, 0.4mmol), Cu (3mg,0.04mmol) and tBuOOH solution (70. mu.L, 0.4mmol) were added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the TCL detection reaction, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3ad, 53mg (white solid) in a yield of 75%.

3ad:R_f＝0.8(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.90(s,1H),8.07(s,1H),7.42–7.29(m,5H),5.45(s,2H).¹³C NMR(100MHz,Chloroform-d)δ152.8,152.7,149.6,144.3,134.6,133.7,129.4,129.0,128.1,122.2(q,J＝330Hz),47.8.¹⁹F NMR(376MHz,Chloroform-d)δ-31.33.HRMS calcd.For C₁₃H₁₀N₄F₃Se⁺[M+H]⁺:359.0017.Found:359.0019.

Example 18:

to a solution of compound 1ae (122mg,0.5mmol) in EtOH (5mL) was added commercially available selenourea (62mg,0.5mmol), and the reaction was heated to 70 ℃ and stirred at reflux for 2 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain Compound 2ae, 103mg (yellow solid), with a yield of 72%.

¹H NMR(400MHz,DMSO-d₆)δ8.81(s,1H),8.26(s,1H),7.36–7.25(m,5H),6.20(s,2H).¹³C NMR(100MHz,DMSO-d₆)δ166.1,152.7,150.4,146.3,138.3,129.2,129.0,128.2,127.9,48.8.

A solution of Compound 2ae in EA was prepared, and CF was added to a solution of Compound 2ae (90mg,0.3mmol) in EA (3mL)₃SO₂Na (94mg,0.6mmol), Cu (4mg,0.06mmol) and tBuOOH solution (100. mu.L, 0.6mmol) were added dropwise and reacted at 30 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3ae, 26mg (colorless oil) in a yield of 25%.

3ae:R_f＝0.5(DCM:MeOH＝10:1)

¹H NMR(400MHz,Chloroform-d)δ9.07(s,1H),8.33(s,1H),7.44–7.34(m,3H),7.07(s,2H),5.68(s,2H).¹³C NMR(100MHz,Chloroform-d)δ160.9,153.1,149.8,140.5,134.7,134.0,129.7,129.3,126.8,122.0(q,J＝332Hz),50.8.¹⁹F NMR(376MHz,Chloroform-d)δ-31.71.

Example 19:

to a solution of compound 1af in EtOH (5mL) was added commercial selenourea (98mg,0.8mmol) and the reaction heated to 120 deg.C and stirred at reflux for 3 h. After the reaction was completed by TCL detection, the reaction solution was filtered, and the precipitate was washed with anhydrous EtOH, and then dried by spinning to obtain compound 2af, 172mg (pale green solid) in a yield of 74%.

¹H NMR(400MHz,DMSO-d₆)δ8.26(d,J＝3.6Hz,1H),8.24(s,1H),7.35–7.28(m,3H),7.26–7.22(m,2H),5.53(s,2H).¹³C NMR(100MHz,DMSO-d₆)δ177.9,147.8,145.9,138.7,136.9,129.2,128.4,128.1,122.1,51.0.

Prepare EA solution of Compound 2af, add CF to EA (3mL) solution of Compound 2af (57mg,0.2mmol)₃SO₂Na (62mg, 0.4mmol), Cu (3mg,0.04mmol) and tBuOOH solution (70. mu.L, 0.4mmol) were added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3af, 46mg (colorless oil) in 65% yield.

3af:R_f＝0.7(Hex:Ethyl Acetate＝2:1)

¹H NMR(400MHz,Chloroform-d)δ8.90(s,1H),8.09(s,1H),7.34(dt,J＝21.5,7.3Hz,5H),5.67(s,2H).¹³C NMR(100MHz,Chloroform-d)δ156.1,154.4,151.5,135.7,132.5,128.9,128.4,128.3,122.4(q,J＝330Hz),116.3,51.4.¹⁹F NMR(376MHz,Chloroform-d)δ-30.78.

Example 20:

to a solution of compound 1ah in EtOH (5mL) was added commercially available selenourea (68mg,0.55mmol) and the reaction heated to 120 deg.C and stirred at reflux for 2 h. After the reaction was finished by TCL detection, the reaction solution was filtered, and the precipitate was washed with anhydrous EtOH, and then dried by spinning to obtain 2ah, 133mg (pale green solid) with a yield of 99%.

¹H NMR(400MHz,DMSO-d₆)δ8.55(s,1H),8.24(s,1H),4.74(p,J＝6.8Hz,1H),1.52(d,J＝6.8Hz,6H).¹³C NMR(100MHz,DMSO-d₆)δ174.0,145.6,143.2,142.7,139.6,47.8,22.6.HRMS calcd.For C₈H₉N₄Se^-[M-H]^-:240.9998.Found:240.9999.

A solution of compound 2ah in EA was prepared, and CF (110mg,0.45mmol) was added to a solution of compound 2ah (3mL) in EA₃SO₂Na (140mg, 0.9mmol), Cu (6mg,0.09mmol), then tBuOOH solution (150. mu.L, 0.9mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3ah, 87mg (colorless oil) in 63% yield.

3ah:R_f＝0.6(Hex:Ethyl Acetate＝2:1)

¹H NMR(400MHz,Chloroform-d)δ8.86(s,1H),8.19(s,1H),4.93(p,J＝6.8Hz,1H),1.66(d,J＝6.8Hz,6H).¹³C NMR(100MHz,Chloroform-d)δ152.5,152.2,149.2,142.3,134.1,122.2(q,J＝330Hz),48.2,22.6.¹⁹F NMR(376MHz,Chloroform-d)δ-31.38.HRMScalcd.For C₉H₁₀N₄F₃Se⁺[M+H]⁺:311.0017.Found:311.0019.

Example 21:

to a solution of compound 1aj in EtOH (5mL) was added commercially available selenourea (123mg,1.0mmol) and the reaction heated to 120 deg.C and stirred at reflux for 2 h. After the reaction was completed by TCL detection, suction filtration was carried out, and the precipitate was washed with anhydrous EtOH and then spin-dried to obtain compound 2aj, 278mg (yellow solid) in a yield of 61%.

¹H NMR(400MHz,DMSO-d₆)δ8.65(s,1H),8.30(s,1H),6.22(d,J＝5.5Hz,1H),5.89(t,J＝5.7Hz,1H),5.56–5.51(m,1H),4.42–4.36(m,2H),4.26(dd,J＝13.0,6.4Hz,1H),2.11(s,3H),2.03(d,J＝2.5Hz,6H).¹³C NMR(100MHz,DMSO-d₆)δ175.0,170.6,170.0,169.8,146.7,143.2,143.2,140.1,86.2,80.3,72.8,70.4,63.3,21.1,20.9,20.7.HRMScalcd.For C₁₆H₁₇O₇N₄Se^-[M-H]^-:457.0268.Found:457.0271.

Prepare EA solution of Compound 2aj, add CF to EA (3mL) solution of Compound 2aj (93mg,0.2mmol)₃SO₂Na (124mg, 0.8mmol), Cu (6mg,0.08mmol), then tBuOOH solution (140. mu.L, 0.8mmol) was added dropwise and reacted at 40 ℃ for 1.0 hour. After the completion of the reaction by TCL detection, the reaction mixture was concentrated under reduced pressure and purified by silica gel column chromatography to obtain compound 3aj, 61mg (colorless oil) in 62% yield.

3aj:R_f＝0.5(Hex:Ethyl Acetate＝1:1)

¹H NMR(400MHz,Chloroform-d)δ8.86(s,1H),8.23(s,1H),6.22(d,J＝5.2Hz,1H),5.94(t,J＝5.3Hz,1H),5.66–5.62(m,1H),4.49–4.41(m,2H),4.37(dd,J＝12.2,4.2Hz,1H),2.15(s,3H),2.11(s,3H),2.08(s,3H).¹³C NMR(100MHz,Chloroform-d)δ170.4,169.7,169.5,153.6,152.7,149.1,142.9,134.5,122.1(q,J＝330Hz),86.8,80.7,73.2,70.6,63.0,20.9,20.6,20.5.¹⁹F NMR(376MHz,Chloroform-d)δ-31.32.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. SCF-containing₃Or SeCF₃Characterized in that the compound has the following general formula:

wherein Y ═ S or Se;

x ═ C or N;

a ═ C or N;

B＝N；

e ═ C or N;

R¹methyl, ethyl, isopropyl, isobutyl, benzyl, ethan-1-ol, cyclopropylmethyl, allyl, propargyl, (2, 2-dimethyltetrahydrofuran [3,4-d ]][1,3]Dioxazol-4-yl) methanol, 2- (acetoxymethyl) tetrahydrofuran-3, 4-diacetic acid diacetate, ethyl 2- ((1H-imidazol-1-yl) methoxy) acetate, 2- ((1H-imidazol-1-yl) methoxy) propane-1, 3-diacetic acid diacetate, and the like alkyl groups;

R²h, cyclohexyl or benzyl, and similar alkyl groups;

R³h, amines or acetamides and similar alkyl groups;

R⁴me, Et or Bn and similar alkyl groups.

2. The SCF-containing composition of claim 1₃Or SeCF₃Is selected from the group consisting of compounds of the following structures:

3. a SCF-containing polymer as defined in claim 1₃Or SeCF₃The method for producing a heterocyclic compound of (1), characterized by comprising the steps of:

the specific reaction process is as follows:

4. a SCF-containing polymer according to claim 3₃Or SeCF₃The method for producing a heterocyclic compound according to (1), wherein thiourea or selenourea in an amount of 1.5 times the equivalent weight of the chlorinated heterocyclic compound 1 is added at 100 ℃.

5. A SCF-containing polymer according to claim 3₃Or SeCF₃The preparation method of the heterocyclic compound is characterized in that in the step (1), after the reaction is finished, the reaction product is directly filtered, the precipitate is washed by anhydrous EtOH, and the precipitate is dried in a spinning mode to obtain the compound 2.

6. A SCF-containing polymer according to claim 3₃Or SeCF₃The method for producing a heterocyclic compound of (2), wherein in the step (2), 2.0 equivalent times of CF is added to an Acetone or EA solution of the compound 2 at 40 ℃₃SO₂Na, 0.2 equivalents of Cu salt, then 2.0 equivalents of tBuOOH solution were added dropwise.

7. A SCF-containing polymer according to claim 3₃Or SeCF₃The process for producing a heterocyclic compound according to (1), wherein, in the step (2), after completion of the reaction, the reaction mixture is concentrated under reduced pressure and purified by silica gel column chromatography to obtain a compound 3.