Abstract
The tetraphosphine cis ,cis ,cis -1,2,3,4-tetrakis(diphenylphosphinomethyl)cyclopentane in combination with [Pd(η3 -C3 H5 )Cl]2 affords a very efficient catalyst for the Heck reaction of aryl bromides with pent-4-en-2-ol,
2-phenylpent-4-en-2-ol, or hept-6-en-3-ol. With pent-4-en-2-ol or hept-6-en-3-ol,
the selectivity in favour of the formation of the 5-arylpentan-2-one or 7-arylheptan-3-one
derivatives, respectively, depends on the substituents on the aryl bromide and on
the base. Sterically congested and electron-rich aryl bromides gave selectively the
linear ketones by migration of the double bond. With electron-poor aryl bromides,
the formation of large amounts of (E )-1-arylalk-1-enol derivatives or side products was observed in some cases. Similar
reactions rates were observed with electron-poor and electron-rich aryl bromides.
Several reactions can be performed with as little as 0.01% catalyst. A wide variety
of substituents, such as methoxy, dimethylamino, fluoro, trifluoromethyl, acetyl,
benzoyl, formyl, carboxy, or cyano groups, on the aryl bromides are tolerated. The
coupling of very sterically congested aryl bromides, such as 9-bromoanthracene or
2-bromo-1,3,5-triisopropylbenzene, also proceeds in good yields. Heck reaction with
2-phenylpent-4-en-2-ol gave the expected (E )-5-aryl-2-phenylpent-4-en-2-ol derivatives in high turnover numbers (TONs) and high
selectivities in most cases. However, with some electron-poor aryl bromides the selective
formation of 1-arylprop-1-ene derivatives resulting from a C-C bond cleavage was observed.
Key words
Heck reaction - aryl bromides - palladium catalysis - alkenols
References
<A NAME="RZ10705SS-1">1 </A>
de Meijere A.
Meyer F.
Angew. Chem., Int. Ed. Engl.
1994,
33:
2379
<A NAME="RZ10705SS-2">2 </A>
Reetz MT. In
Transition Metal Catalysed Reactions
Davies SG.
Murahashi S.-I.
Blackwell Science;
Oxford:
1999.
<A NAME="RZ10705SS-3">3 </A>
Beletskaya I.
Cheprakov A.
Chem. Rev.
2000,
100:
3009
<A NAME="RZ10705SS-4">4 </A>
Withcombe N.
Hii (Mimi) KK.
Gibson S.
Tetrahedron
2001,
57:
7449
<A NAME="RZ10705SS-5">5 </A>
Littke A.
Fu G.
Angew. Chem. Int. Ed.
2002,
41:
4176
<A NAME="RZ10705SS-6">6 </A>
Farina V.
Adv. Synth. Catal.
2004,
346:
1553
<A NAME="RZ10705SS-7">7 </A>
Muzart J.
Tetrahedron
2005,
61:
4176
<A NAME="RZ10705SS-8">8 </A>
Dyker G.
Markwitz H.
Synthesis
1998,
1750
<A NAME="RZ10705SS-9">9 </A>
Qadir M.
Priestley RE.
Rising TWDF.
Gelbrich T.
Coles SJ.
Hursthouse MB.
Sheldrake PW.
Whittall N.
Hii (Mimi) KK.
Tetrahedron Lett.
2003,
44:
3675
<A NAME="RZ10705SS-10">10 </A>
Dyker G.
Kadzimirsz D.
Eur. J. Org. Chem.
2003,
3167
<A NAME="RZ10705SS-11">11 </A>
Dyker G.
Grundt P.
Markwitz H.
Henkel G.
J. Org. Chem.
1998,
63:
6043
<A NAME="RZ10705SS-12">12 </A>
Taylor EC.
Wang Y.
Heterocycles
1998,
48:
1537
<A NAME="RZ10705SS-13">13 </A>
Dyker G.
Grundt P.
Helv. Chim. Acta
1999,
82:
588
<A NAME="RZ10705SS-14">14 </A>
Ohno H.
Okumura M.
Maeda S.-I.
Iwasaki H.
Wakayama R.
Tanaka T.
J. Org. Chem.
2003,
68:
7722
<A NAME="RZ10705SS-15">15 </A>
Gangjee A.
Yu J.
Kisliuk RL.
Haile WH.
Sobrero G.
McGuire JJ.
J. Med. Chem.
2003,
46:
591
<A NAME="RZ10705SS-16">16 </A>
Larock RC.
Leung W.-Y.
Stolz-Dunn S.
Tetrahedron Lett.
1989,
30:
6629
<A NAME="RZ10705SS-17">17 </A>
Tamaru Y.
Yamada Y.
Yoshida Z.
Tetrahedron
1979,
35:
329
<A NAME="RZ10705SS-18">18 </A>
Laurenti D.
Feuerstein M.
Pèpe G.
Doucet H.
Santelli M.
J. Org. Chem.
2001,
66:
1633
<A NAME="RZ10705SS-19">19 </A>
Feuerstein M.
Laurenti D.
Bougeant C.
Doucet H.
Santelli M.
Chem. Commun. (Cambridge)
2001,
325
<A NAME="RZ10705SS-20">20 </A>
Feuerstein M.
Berthiol F.
Doucet H.
Santelli M.
Org. Biomol. Chem.
2003,
1:
2235
<A NAME="RZ10705SS-21">21 </A>
Feuerstein M.
Doucet H.
Santelli M.
J. Org. Chem.
2001,
66:
5923
<A NAME="RZ10705SS-22">22 </A>
Feuerstein M.
Doucet H.
Santelli M.
Synlett
2001,
1980
<A NAME="RZ10705SS-23">23 </A>
Feuerstein M.
Doucet H.
Santelli M.
Tetrahedron Lett.
2002,
43:
2191
<A NAME="RZ10705SS-24">24 </A>
Berthiol F.
Feuerstein M.
Doucet H.
Santelli M.
Tetrahedron Lett.
2002,
43:
5625
<A NAME="RZ10705SS-25">25 </A>
Berthiol F.
Doucet H.
Santelli M.
Tetrahedron Lett.
2003,
44:
1221
<A NAME="RZ10705SS-26">26 </A>
Berthiol F.
Doucet H.
Santelli M.
Synlett
2003,
841
<A NAME="RZ10705SS-27">27 </A>
Kondolff I.
Doucet H.
Santelli M.
Tetrahedron Lett.
2003,
44:
8487
<A NAME="RZ10705SS-28">28 </A>
Kondolff I.
Doucet H.
Santelli M.
Synlett
2004,
1561
<A NAME="RZ10705SS-29">29 </A>
Berthiol F.
Doucet H.
Santelli M.
Tetrahedron Lett.
2004,
45:
5633
<A NAME="RZ10705SS-30">30 </A>
Lemhadri M.
Doucet H.
Santelli M.
Tetrahedron
2004,
50:
11533
<A NAME="RZ10705SS-31">31 </A>
Berthiol F.
Doucet H.
Santelli M.
Eur. J. Org. Chem.
2005,
1367
<A NAME="RZ10705SS-32">32 </A>
Ranganathan S.
Kumar R.
Maniktala V.
Tetrahedron
1984,
40:
1167
<A NAME="RZ10705SS-33">33 </A>
Kondo T.
Kodoi K.
Nishinaga E.
Okada T.
Morisaki Y.
Watanabe Y.
Mitsudo T.-A.
J. Am. Chem. Soc.
1998,
120:
5587
<A NAME="RZ10705SS-34">34 </A>
Wolfe JP.
Rossi MA.
J. Am. Chem. Soc.
2004,
126:
1620
<A NAME="RZ10705SS-35">35 </A>
Hay MB.
Hardin AR.
Wolfe JP.
J. Org. Chem.
2005,
70:
3099
<A NAME="RZ10705SS-36">36 </A>
Bradshaw J, and
Collins I. inventors; DE 19770217.
<A NAME="RZ10705SS-37">37 </A>
Wennerberg J.
Olofsson C.
Frejd T.
J. Org. Chem.
1998,
63:
3595
<A NAME="RZ10705SS-38">38 </A>
Kise N.
Suzumoto T.
Shono T.
J. Org. Chem.
1994,
59:
1407
<A NAME="RZ10705SS-39">39 </A>
Bohlmann F.
Krueger M.
Liebigs Ann. Chem.
1985,
560
<A NAME="RZ10705SS-40">40 </A>
Guthrie RW.
Kaplan GL.
Mennona FA.
Tilley JW.
Kierstead RW.
Mullin JG.
LeMahieu RA.
Zawoiski S.
O" Donnell M.
Crowley H.
Yaremko B.
Welton AF.
J. Med. Chem.
1989,
32:
1820
<A NAME="RZ10705SS-41">41 </A>
Peyroux E.
Berthiol F.
Doucet H.
Santelli M.
Eur. J. Org. Chem.
2004,
1075
<A NAME="RZ10705SS-42">42 </A>
Kayaki Y.
Koda T.
Ikariya T.
Eur. J. Org. Chem.
2004,
4989
<A NAME="RZ10705SS-43">43 </A>
Fuerstner A.
Seidel G.
Synlett
1998,
161
<A NAME="RZ10705SS-44">44 </A>
Araki S.
Hatano M.
Ito H.
Butsugan Y.
J. Organomet. Chem.
1987,
333:
329
<A NAME="RZ10705SS-45">45 </A>
Fakhfakh MA.
Fournet A.
Prina E.
Mouscadet J.-F.
Franck X.
Hocquemiller R.
Figadere B.
Bioorg. Med. Chem.
2003,
11:
5013
<A NAME="RZ10705SS-46">46 </A>
Ota T.
Terashima M.
J. Heterocycl. Chem.
1987,
24:
377
