Organotellurinic acid anhydrides as selective oxidants in organic synthesis

Tetr~ Fvinwd

Vol. 41 No. 8, pp. 2319 to 2324.1986 in chal miti.

ORGANOTELLURINIC

ACID

Derek

ANHYDRIDES

H.R.

lnstltut

Barton,

AS SELECTIVE

Jean-Pierre

OXIDANTS

IN ORGANIC

Flnet and Martial

de Chlmle des Substances

Naturelles,

91190 Clf-sur-Yvette,

SYNTHESIS

Thomas

C.N.R.S.,

France

(Recekd in Frmux 6 Jammy 1966)

acid anhydrides have been compared lbr their Abstrvct - Sever01 aryltellurinlc oxldising properties in acetic acid. Very high yields of quinones and disulphides can be obtained under candltlons where phenols are not oxldlsed.

Dlanisyltelluroxide thiols

to disulphldes

phenols

or

formation often

and

amlnes.

Many

thlones

of a diaryltelluride.

oxidised,

provided

propertles

for example,

have

hydrazlne

mild and selective The ponding

aromatic

through

i.

aryltellurinlc

anhydride

agents

aryltellurinic

of the latter

and The

soluble

soluble

in acetic

on heating

reactivity

Table

acid (and

Synthesis

like

therefore,

ketones

that

other

for

aryltellurlnlc

oxldlse

presence

sulphur

of

wlth

functions

are

is present. some time. 283

reduction

Their

to ditellurides

by,

acid anhydrides

are

diaryltelluroxides. prepared

tetrachloride

lose water

to give

solvents.

aclds).

in acetic

Anhydrides

the corres-

the trlchlorldes

the anhydrides.

This

the 4-phenoxy-

acetic

pyrldlne

anhydrlde

and

(and

dlmethyl-

acid solution.

9-12 --

ArTeC13

Base

5

NaOH

12

9

92

205-210

6

NaOH

12

ro

96

275-279

7

Na2C03

2

”

71

a

Na2C03

2

-12

96

Reaction Time (h)

2319

2

the corresponding

For example,

comparable

examihed

by reacting to give

afforded

dimethylfotmamide,

of Aryltellurlnlc

and

hydroxylamlne

their

They

in the

functionality

sodium hydroxide

spontaneously

oxidants.’ even

been known

11 were

tellurium

in most organic

In solvents

of 11 was,

1.

2 through

with aqueous

11 which

is scarcely

have

although

like the corresponding

0 with

and

or -NH-OH

We now report

anhydrides

to

hydrazlde

-NH-NH

investigated,

compounds 1 through

11 is only

sulphoxide.

little

selective

to qulnones

smoothly

acids and anhydrldes

acids 2 through

its congeners)

hydrarine,

appropriate

been

oxldising

class of compounds

converted

Is well known.

Treatment

are useful,

and catechols

are

The

that

Organotellurinic chemical

and its congeners

hydroqulnones

206-205

3

273-275

276

3

230-235

230

3

D. H. R. BARKIN er al.

2320

Phenols in

refluxlng

(2,5-dl-tort.-butylphenol and 3,5-dl-tort.-butylphenol) acid, even after 7 days, and were recovered in

acetic

Hydroqulnones

were

1.4~benzoqulnone temperature

easily

oxldlsed

4-phenylurazole

corresponding 88%).

5 days.

was obtained

The

after

24 hrs.

48 hrs,

Substrate

Reaction

were smoothly 86%),

oxldlsed

converted

at room

dl-(4-tort.-butyl-2-

g-phthaloylhydrazlde acetate

Is performed

E

as trapplng

and

agent,

after

of 11 with

to the thloester

In DMF at 1 loo,

30

only

(54%) in

27% of 30

Hydroqulnone

Product

and Thlols

Yliy

Lit.

i!$p*

lZ.5’

80

1

84

-16

95

150-152

150-151

-17 -19

20

3

56

121-122

125

9

18

83

-18 -20

81

20

86

58-60

61

10

z

20

20

88

22

94

61-63

thlophenol

to assess the relative were

2J.

appeared the ratlo

In order reactions

that

The

performed

reactions

reaction

between

the reduced

tellurium

in 4 and

82% Instead

showed

( 70% In 15 min.)

that

Table

3.

-11 9

vs

-12

Wlth

2

occurred

Competition

11

anhydrldes

substrate

11 and 32 with

and telluroxldes,

(Table

46% respectively

After after

2

Tellurium

Reduced A

fi

Derlvatlves

To Reagents B

95

23

?!! -36

32

97

36 5

46

vs

-32 -11

vs

-32

96

37

33

-34

67

25 57 60

thlophencil

Oxidants vs

70

21 Ylld f Dlsufphl~e 12 I%1 98

90 mln.,

very

and dianlsyltelluroxlde

z

Ylld f O:no:e 18

and

However,

30 mlns.

by the anhydride

dltellurlde

wlth Various

3).

z

It

1,4-dihydroxynaphthalene,

was time-dependent.

was reoxldlsed between

Reactions

With 1,4-dlhydroxynaphthalene

Oxidants

of 32 and

8

: 1,4-dlhydroxynaphthaIene

In oxldlsed

between

compounds

dianlsyltellurlde

but no reaction

of tellurlnlc

two substrates

were quantitative

In the competition

recovered

experiments

reactlvlty

with

24

by 11 In acetic

-28.

Yield of [Ph-&C6H4Te),

Time lh)

(2,5-dl-tort.-butyl

27 were also unaffected

28 was slowly reaction

not oxldlsed yield.

15

competition

were

Temp. 1°C)

conditions,

with ergosteryl

with 39% unreacted

2.

Thlophenols

26 and lndollne

If the

qulnones

(dlphenyldlsulphlde

these

S-methylxanthate

Table

2

81%).

Under

Pyrrolldlne

acid at 1 loo for

corresponding

dlsulphldes

20 did not give any adduct

hrs at room temperature. acid for

the

95%. 1,4_naphthoqulnone

to the

methylphenyl)dlsulphide

acetic

to

were 90-95%

-11 9

-32 -11

92

36 35

68

vs

19

-34 -36

11

vs

-32

95

-37

1

-34

‘,

and

Blank quickly 2.

&ganotcUurinic acid anhydridcsas s&c!ivc oxidantsin or&c To avoid reactivitles

any

were eventually

side

reaction

between

determined

on Z,S-di-tort.-butyl-1,4_hydroquinone order

shows that

tellurlnlc

the different

by comparing Is,

anhydrldes

with

the

are generally

tellurium

oxidation four milder

oxidants

than

> -11. As these studies were performed in acetic acid, telluroxlde as its dlacetatc -33.’ In the reaction with 1,4-dihydroxynaphthalene showed similar activity. However, in the reaction with the xanthate

failed

to react

(99% yield)

In 18 hrs

at room temperature,

with -29 in CH2C12 or In acetic acid under

Table

4.

Comparative

Actlvlties

of Various

but

similar

the

the

performed

(Table

-2

CH2C12 gave 2

species,

reactions

reagents

2321

syathuis

4).

relative In parallel

The

telluro%ldes

32 was In fact in CH2CI2, 2,

reactivity

: 12 > 32 mtactlng

31 and 23

telluroxlde

32 In diacetate 33

telluroxlde

conditions.

Tellurium

Derivatives

with 2,5-dl-tort.-butyl-1,Fhydroquinone”

Oxldant

Yield

of

Qulnone

57

-11 -12

11

4

92

86

32

68

52

51

Ruction performed in acetic acid for 6 hrs at room temperature under an atmorphera of argon.

Further

Ar=

Te

(%I

2

a:

in progress

Reduced

16 ($)

studies

on the scope of the reactivity

and will be reported

+ OMe

-

of tellurinlc

$-Bu’

are now

OPh

\

-

ArH

1

2

ArTeC13

5

6

(ArTeO)20

9

-10

(Ar+e12

-35

OH

acid anhydrldes

In due course.

OH

xx> 00

4 8 -12 -37

OH

OH

0

2322

D. H. R.

0

0 bH

u

al.

0

OH

00

&RTON

0

1

@

0

0

0

0

SH

-21

U?ICONH)~

-25

lul

(G 0

H”

IL

-29

R=

-SPh

r

R =

-SPh 6

(0

TeX2

Me0

32 x2 = 0 2X

0

-26

J3P Me0

m

IIH”

0

Te

= OAC

EXPERIMENTAL bf.p.6 were determined with a Kofler hot etagc lpparatua and are uncorrected. Ww lpoctra were determinedfor lolutiouain deuteriochloroform with TMS a. iutemal etaudardon a Variaa K-M 360 apparatua. IP epectra were recorded on a Perkin-Klrer297 lpectrowter. U.V.

ware recorded on a Perkin-Elmer Lambda 5 UP-VI. Spectrophotomer.Hama spectra were recordedvith au MI X8-9 iuatrumeut. All lolveuta and reagent.were purifiedaud dried by under light preaaurewa. performeduein8 Merck ltaudard tochuiquea. Columu chromatography Ki.e.lS.160 (230-400muh). epectra

Syntheei.of Aryl TelluriumTrichloridea telluriumtrichlorideawar. preparedby reactionof Ania,l-4, naphth71-5and 4-phenor7phenyl-6 the lrometichydrocarbonand telluriumtetrachlorid.. 4-(n-Bu~)phenyZtiZZ&wn tr&M.oride S wae preparedb7 heating at 8O.C for 2 hr. a mixture of x-buto~henzene 1 (37.9 g) and telluriumtetrachlorid.(8.28 6) under an ltmoephereof argon. The reactionmixturewas evaporatedto dv... under reducedpreaaureand the raaiduc extractedby hot lcetonitril.and filteredthroughCalit.. After coolim6,2 vu obtaineda.

OrganotcUuriuic tid

brown cryetrle C10E13C130To

Syntheele

(8.03

6,

repairam

of

Aryl

C,

anhydrides us &kctivc oxidants in orgnnic synthesis

75X), r.p. 161-163’C 31.41; 8, 3.42; 0,

Tellurinic

(?ound: C. 31.24; 4.16; Cl, 27.82X).

8,

3.37;

0.

2323

4.40;

Cl,

27.69.

Anhydrfdce

Aniegl Telhdnia Anh@i& i : A 10X aqueour #odicn hydroqde lolutlom (100 ml) vae llwly added to a vigoroaely ltlrred lolutlon of 2 (5 6) in W (50 ml). The h.ixtnro rU ltirred at room temperature for 12 hre md then the W ua8 dietilled off. The coald coleurleee mixture wee ecidified vith 8cetlc lcid Rnd the precipltete $iltered and dried to afford 2 (3.60 6, 92X) es a white crietelline powder, m.p. 205-2lO.C (lit. 200-205.C). m/z 469 (M - 30). I-In-Butoxyl-phan#t T82Elacinia Anh@i& 0 vu yielded E (1.89 6, 98X) l e l uhite crietalline 4.45; 0. 13.60. C20E2605Te2 requires C. 39.92;

prepercd pouder, H. 4.36;

by the eeme procedure. m.p. 275-279.C (Found: 0, 13.301).

2 c,

(2.42 39.99;

g) 8.

P-Pheno~~htm~t TeZZlcFinic Anh#t%de 11 : A 10X aaueoue eodium carbonate solution (500 11) WU elavlp eided io e vigorously e-tirr.dzlatioD of i-phenoxypheuylte.llurlum trfcbloride 7 (27.2 The mixture we ltirred under reflux for 2 hrs and the TEV wae dizilled off. R) in TEP (275 ml). %e pricipitnte wee filtered from the cooled pture , veehed with Ii20 and dried in vacua to afford

-11 (15.38

2-h’@th&Z

(1.15

8,

Oxidetionr

g,

Tetlurinio 98X), m.p. with

71X).

m.p.

A*c?&& 230-235-C.

273-275%.

g lit.

4-Phenoxyphmyl

lit.

ree prepared 230-C.

tellurinic

276.C.

by the

Anbydride

eeme procedure

: 0 (1.5 6) yielded

12

fi

2, C-Di-tart. -butyZ-1, I-benwquirwne E : A rolutioa of 2,5-di-trrt.-butyl-l,4-hydraqoinone 15 (0.666 g)n acetic acid (5 ml) vae rlowly edded (15 mine) toxlution of 11 (0.705 6) ir The airture wee ltlrred for 1 hryt 80%. After acetic acid. under en ltmoephere of ergon. the reeidue vae lxtrected ulth CB Cl . The orSanic phue dietilletion under reduced preeeure, Colunn chromatogreph# (hueat: hex-e-toluene V&Y weehed vith E 0. 5X lqueoue Ha CO , and H 0. 2:3) lfforded d&4-phenoxyphenyl 36 (0.542 8, 84X) aa purple crgetale ?a i&lurid? (?=nd: C. 48.75; 8, 3.28; 0. 5.36. C H 0 Te2, (aethylenedichloride-ethanol), m.p. 93-95-C. H. 3.05; 0, 5.39X1, followed b# 16 (0.631 8, 95X) M orange c@+t requiree C, 48.56; (me~hplenedichloride-h-e); m.p. 150-152.C. lit. 150-15l.C: u_, (CItCl,) 1640 cm ; 6 (cDC13) 6.6 (2H. (I, 3-R and 6-E) and 1.3 (18 E. e, E.-f&). 1,4-Raphthoqui?wna ‘B : A oolution of 1.4-dlhydroxynephthalent E (0.160 6) VU added to l The mixture vae eolution of g (0.225 8) in acetic acid (3 ml), under an atmosphere of argon. Work-up l e above followed by column chrometogrephy stirred for 40 mine at room twereture. (eluant: toluene-hexene 7:3) afforded 36 (0.195 6, 98X) end92 (0.142 6, 89X) aa orenge 121-122-c; v (CHC13) 1670 cqftals (methylenedichloride-ethanol); m.p. 121-122.C. lit. (48. m. 5-H. 6-H. 7-H and 8-E). 7.25 (28, e, 2-E anby-8): x (EtOE) cm ; 6 (CDcl ) 8.5-7.9 mu. 319 (2500) ana 331.6 (17000). DiphtmyZdieulphido z : Thiophenol 19 (0.215 6) vae added to a rtirred eolutlon of fi (0.210 6) in lcetic ecid (2 ml). under an lGDher4 of erRon. The mixture wee etirred for 1 hr at room W&k-up-se lbove followid by colti chr_toSraphy yielded 20 (0.#4 temperature. 8, 86X) l e 61-C. and -36 colourlees, odorleee cryetele (methylenedlchloride-ethanol), m.p. 58-60%. lit. (0.167 6, 83X). Di(4-tert.-butl/2-2-meth~Zphm~ZMuuZphids 22 : 4-tert.-butyl-2-methylthiophenol 21 (0.350 8) we eddcd to .s eolutioa of 11 (0.213 P) ln%etica (2 ml) under a~ ltmoeDherrof nrRon. The mixture vu etirred for i hr a;. ram taper.&. U&k-up follcwed ‘by cot_ chrmntogrephy (eluunt: hexeee-ether 95:5) afforded 22 (0.340 6. 94X) l e colorless cryeta (methylenedichloride-•thenol); l .p. 63-65.C; Y (CRC1 ): no S-E band et 2550 g ; 6 (CDCl ) 7.35-7.20 (38, m, AM), 2.5 (38, e, CR ) end ly(9E, sb3tert.-butyl); m/z 358 @I ); [Pound: 3. II, 8.43X1. fxarad by z (0.173 6, 68X). 73.06; A. 0.50. C22H30S2 requires C. j3.68; sa-c?wZ43etu71-39-02 mnth~Zthicua&mt 30 : A mixture of _&ate 28 (0.233 8) end 11 (0.214 6) in lcetic ecld (IO ml) vae heeted for 24 hrs at llO*C under ~1 &bphere of.argony Work-up gradient) afforded 30 (0.122 6, 54X), m-p. ;; ;;gm c:;mffogreW (elurnt : ether-huene of di(4-pheooxyphenyl)~telluride end 117-C and a mixture di(4-phen&yphe~yl)telluride (0.087 6). When the ruction VU performed lo DlIp (10 ml) for 48 hre et llO*C. 30 (0.061 6, 27X) end e mixture of telluride and ditelluride (0.184 g) were recovered. Oxidetion

of S-Phenylxenthate

29 -*

4) With DianM~Z TeZZul~rfde : A mfxture of ranthate 2 (0.176 6) end dieaL+ telluroxide 2 (0.132 6) in CE Cl (10 ml) vRe etirred for 8 bre et room tapereture. Colurm chrometography (eluent : ether-#ex&e) afforded aflphur (0.012 6, 100X) thiocarbonatc 31 (0.167 6, 972); m.p. 125-128.C; v (CRC1 ) 1715 a; d (CDCl ) 7.85-7.35 (5E. I, Arll), c&3 (la, m. W/2 21 Ex. 3-E and 2.4??6 (46E?m. cbolertene); m/z $12 CM+>. 400 and 371. followed by 2 (0.107 6, b) with diwzi~ZteZZmxide diaaatuk 94X). : Similer reection ueing g (0.170 6) iaeteed of 32 Save ImchaISed 29 after 36 hre et room teupereture. Addition of pyrldine (0.5 ml) did not a) Wth 4-phenoq@~ZtrZZxrinio anhy&ida : A mixture of untbta 19 zdify the reaction.

D. H. R. BAIRN er ol.

2324

(0.176 g), fi thiocarbonata Capatition

(0.1 d 31, but Studlax

in acetic acid (2 ml) only unraacted -29.

atirrad

at

room taparatura

for

36 hra

gwa

no

:

CenezuZ B : Acetic acid (5 ml) vax addad to tha al WitJI 1,4-Dihydmqxuphthakna 17. mixture of E (0.160 8. 1 d) d-the fro orgenotellurium compound@, under en atmosphere of argon. Tha mixture vu ltirrd for 30 mine. at room taperature end than utractad vith methylanedichloride. Fe organic phaae vae vuhd vith vatar, 10% aquaoux NallCO end vetar, dried over *odium eulpheto and aveporeted under raduccd preeeura. Column chr o&a togWhY (ahtat: toluana-haxena 7:3) afforded the tvo raducad organotellurium compounda and g. I) 11 (0.250 8) aad 32 (0.403 6) SW. 36 (0.063 8, 42%). 34 (0.208 8, 56%) and 18 (0.139 S, 88%); ii) 9 (0.187 STend 11 (0.248 B)-i+e 35 (0.044 6, TX), 36 (0.128 6, 64Xrend 18 (0.151 6, 95x>: iii) 12 (0.2Org) and 21 (0.400-g) gave 37 (0.125 T, 73X), 2 (0.052 .g, ij%) and 2 (0.145 g, 9lZ bl vith I-Wt.-but& Z-methyZthiophenol 21. Genemt ~&UW : 21 (0.360 6) v.x addad to the solution one tvo orgenotellurium capounde in acatic acid (5 z) under en atrorphera of argon. The mixtura vae atirrad for 1 hr et roa tcrperatura and then vorkad up u above. ether-huane gradient) afforded the tvu raducad organotallurium Column chrowtography (aluent: I) 11 (0.230 g) and 32 (0.400 8) Swa 36 (0.132 g, 68%). 34 compound8 and the dixulphida 22. 71) 9 (0.190 g)=d 11 (0.236 8) g.va 35 (0.031 8, 19n; (0.091 8, 25%) and 22 (0.350 c98X); fiI> 12 (0.205 g)-md 32 (0.394 ,3)-&t 21. (0.002 6, a (0.114 8, 57%) md 22 (0.331 6, 92%); 1%). -34 (0.207 6, 60%) and -22 (0.341 6, 95%). Ge?Wrat Propertie ta&zr& 2,C-di-tert.-bu~Z-l,4-h~~quinae 16. of 2.5-dI-tert.-butyl-1,4--hparoquInona g (0.222 6) a of the lquiv.) under atmosphara of argon vex diarolved In lcatic acid (5 end thus axtractad with wthylana ml). Tha mixture vat otirrad for 6 hrx at room taparatura Tha organic phaaa vae va&ad vith vetar end evaporated under reduced prareure. dichloride. toluene-hexana 7:3) afforded the reduced tellurium cqound, Calm chromatogrepby (aluant: 2,5-dI-tart.-butyl-pquinoona 16 end 2,5-dI-u.-butyl-1,4-hydroquinone g. a) Oxidation with anixylt~rinic anhydride 9 gwe 16 (0.127 g, 57%). 21. (0.082 6, 51%) end 15 (0.056 g, 29%). b) Oxidation vith 4-phano~banyl~llurinIc anhydride 11 (0.236 6) gave 3670.013 6, 4%) end c) Oxidation vith 2-naphthyl talluriaic anhydride &TO.205 g) gffe z 16 (0.025 8, 11%). d) Oxidation vith dIanIxyltelluroxIde v.145 6, 86%). x (0.204 g, 92%) and E (0.006 g, 3%). -32 (0.394 6) &WC -16 (0.150 S, 68%). -34 (0.177 S, 52%) and -15 (0.027 8, 12%). Canpariea of Ozid
RoMtion of Dimi8yLtettluwride 32 @ith di-(4-pmhenyll-diteZZ& dIaniryltelluroxIda 32 (0.36 6) a di-(4-phanoxyphenyl)-dItallurIda of mathylanadichlori~ (1 ml) and acetic acid (5 ml) VU xtirrad T.1.c. monitoring of undar en ltmoxphara of argon. temperature. formation of dIanisyltallurIda -36.

36.A solution of 36 (6;162 g) In n mixture for 5 day8 at room the reaction shoved no

R&z&ion of I-Phm~henyi!-tetlurinio Anhydride 11 with Dixanieyltelluride 34.A xolution of 4-phanoxyphanyl tallurinic anhydride 11 (0.1 6) zd dIani~yltallurIde 2 (rlbl g) In acetic acid (5 ml) vae xtirrad for 15 min. z room temperature under an atmosphere of argon. Tha mixture vex than utractad vith mathylana dichloride, varhad vith vatcr and dried over Na SO ; 3:l) gwa the ditellurida 36 (&Oh column ch-togrephy (aluant : haxana-mathylanedichlorIde When the reaction VU stirred for 1 hr. dIani~yltal~Ida g, 68%) end traca muntn of 2. -34 diaappaarad completely (by t.1.c. examination). REFERENCES

1. 2. 3.

4. 5. 6. :: 9. 10. 11.

755 (1979); a, D.E.R. Barton, S.V. Ley and C.A. Maarholr. J. Cham. SOC. Cham. Cm.. 37, Suppl. 1, 213 (1981); S.V. Tatrehedron Latts. 2l, 1785 (1980); 2 dam, Tatreh&ron. Lay, Ann. Rap. Roy. Sot. Cham.. B. 233 m80). E.D.K. Drev, J. Cham. Sot., 560 (1929). licantini, Univ. Sao Paula, Pac. Piloeof. Cienc. Letran. Bol. Quti., N. Patrasnani~ 2, 75 (1359); Thea. Ahatr., 58. 11256a (1958); C. Vicentini. E. Giaxbrecht and L.K.R. K.J. Irgolic, The Organic ChemixtrP of Tellurium, Pitabo, Cham. Bar., 92, 40 n959); Gordon anfi breach, Nav York, 1974. and E. Kirachba nm C.T. Morgan and B.E. Kallatt, 1080 (1926); L. Keichtl -J. Chem. Sot., &, 523, 211 (1936). B. Khainboldt and C. Vicantini, Chem. 8ar.. ,9, 624 (1956). H.D.K. Drav. J. Chm. Sot., 223 (192a7. I.D. Sadakov and A.A. Haksimanko, Zh. Obech. Khia., 47. 2536 (1957). A. Gurevitach. &r.. 2, 2427 (1899). I. Eailbron, Dictionary of Organic Corpoundn. 4th Ed. Eyre and Spottj svooda , London, Vta 6. 2386 (19651. Ida, voi: 3;- 1279 (1965). mR. Barton, N.J. Cu~aum and S.V. Lay, J. Cha. Sot., Perkin I. 16 50 (198(11).