Advanced search
Publication Cover
Synthetic Communications
An International Journal for Rapid Communication of Synthetic Organic Chemistry
Volume 28, 1998 - Issue 17
Submit an article Journal homepage
109
Views
39
CrossRef citations to date
0
Altmetric
Original Articles

Ru(III) Catalyses the Conversion of Epoxides to 1,3-Dioxolanes

N. Iranpoor Chemistry Department, College of Sciences, Shiraz University, Shiraz, 71454, Iran
&
F. Kazemi Chemistry Department, College of Sciences, Shiraz University, Shiraz, 71454, Iran
Pages 3189-3193 | Accepted 06 Feb 1998, Published online: 23 Aug 2006

Citations (39)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (6)

Laddawan Chareonsiriwat & Warinthorn Chavasiri. (2017) Convenient method for the transformation of epoxide to aldehyde and acetonide mediated by Cr-PLM. Synthetic Communications 47:4, pages 257-267.
Read now
Behzad Zeynizadeh & Leila Sadighnia. (2008) Catalytic Conversion of Epoxides to 1,3-Dioxolanes with Phosphomolybdic Acid (PMA) in Solution and under Solvent-Free Conditions. Phosphorus, Sulfur, and Silicon and the Related Elements 183:9, pages 2274-2279.
Read now
F. Kazemi, A. R. Kiasat & S. Ebrahimi. (2005) Efficient and Catalytic Conversion of Epoxides into 1,3‐Dioxolanes with LiBF4 . Synthetic Communications 35:11, pages 1441-1445.
Read now
Ali Reza Kiasat, Foad Kazemi & Mehdi Fallah Mehr Jardi. (2004) SOLVENT-FREE CONVERSION OF OXIRANES TO THIIRANES WITH THIOUREA. Phosphorus, Sulfur, and Silicon and the Related Elements 179:9, pages 1841-1844.
Read now
I. Mohammadpoor-Baltork, A. R. Khosropour & H. Aliyan. (2001) EFFICIENT CONVERSION OF EPOXIDES TO 1,3-DIOXOLANES CATALYZED BY BISMUTH(III) SALTS. Synthetic Communications 31:22, pages 3411-3416.
Read now
Foad Kazemi, Ali Reza Kiasat & Shahriar Ebrahimi. (2001) Efficient Conversion of Oxiranes to Thiiranes with Thiourea Catalyzed with Ruthenium Trichloride and Alumina. Phosphorus, Sulfur, and Silicon and the Related Elements 176:1, pages 135-140.
Read now

Articles from other publishers (33)

Prisco Prete, Daniele Cespi, Fabrizio Passarini, Carmine Capacchione, Antonio Proto & Raffaele Cucciniello. (2022) Glycidol syntheses and valorizations: Boosting the glycerol biorefinery. Current Opinion in Green and Sustainable Chemistry 35, pages 100624.
Crossref
Majid M. Heravi & Fatemeh F. Bamoharram. 2022. Heteropolyacids as Highly Efficient and Green Catalysts Applied in Organic Transformations. Heteropolyacids as Highly Efficient and Green Catalysts Applied in Organic Transformations 305 373 .
Maria Ricciardi, Laura Falivene, Tommaso Tabanelli, Antonio Proto, Raffaele Cucciniello & Fabrizio Cavani. (2018) Bio-Glycidol Conversion to Solketal over Acid Heterogeneous Catalysts: Synthesis and Theoretical Approach. Catalysts 8:9, pages 391.
Crossref
Marc Sutter, Eric Da Silva, Nicolas Duguet, Yann Raoul, Estelle Métay & Marc Lemaire. (2015) Glycerol Ether Synthesis: A Bench Test for Green Chemistry Concepts and Technologies. Chemical Reviews 115:16, pages 8609-8651.
Crossref
Piyarat Trikittiwong, Nipaka Sukpirom, Shogo Shimazu & Warinthorn Chavasiri. (2014) Iron oxide-pillared clay catalyzed the synthesis of acetonides from epoxides. Catalysis Communications 54, pages 104-107.
Crossref
Ganapati D. Yadav & Prasad S. Surve. (2013) Atom Economical Green Synthesis of Chloromethyl-1,3-dioxolanes from Epichlorohydrin Using Supported Heteropolyacids. Industrial & Engineering Chemistry Research 52:18, pages 6129-6137.
Crossref
Jeffrey A. McKinney, Chi-Ming Che, Man-Kin Wong, Ernest S. Gore & Alison N. Campbell. 2001. Encyclopedia of Reagents for Organic Synthesis. Encyclopedia of Reagents for Organic Synthesis.
Stanisław Krompiec, Mateusz Penkala, Krzysztof Szczubiałka & Ewelina Kowalska. (2012) Transition metal compounds and complexes as catalysts in synthesis of acetals and orthoesters: Theoretical, mechanistic and practical aspects. Coordination Chemistry Reviews 256:17-18, pages 2057-2095.
Crossref
David J. Wilkins. 2011. Modern Heterocyclic Chemistry. Modern Heterocyclic Chemistry 925 988 .
Rengarajan Balamurugan, Raveendra Babu Kothapalli & Ganesh Kumar Thota. (2011) Gold‐Catalysed Activation of Epoxides: Application in the Synthesis of Bicyclic Ketals. European Journal of Organic Chemistry 2011:8, pages 1557-1569.
Crossref
Amol P. Amrute, Suman Sahoo, Ankur Bordoloi, Young Kyu Hwang, Jin-Soo Hwang & Shiva B. Halligudi. (2009) MoO3/SiO2: An efficient and selective catalyst for the synthesis 1,3-dioxolane and 1,3-dioxane. Catalysis Communications 10:10, pages 1404-1409.
Crossref
Sumit Saha, Samir Kumar Mandal & Subhas Chandra Roy. (2008) Fe(III) chloride catalyzed conversion of epoxides to acetonides. Tetrahedron Letters 49:41, pages 5928-5930.
Crossref
R.A. Aitken & L.A. Power. 2008. Comprehensive Heterocyclic Chemistry III. Comprehensive Heterocyclic Chemistry III 841 891 .
G. Dake. 2008. Comprehensive Heterocyclic Chemistry III. Comprehensive Heterocyclic Chemistry III 173 233 .
Youngsoon Kim & Philip L. Fuchs. (2007) Lactol-Directed Osmylation. Stereodivergent Synthesis of Four C-19,20 Apoptolidin Diols from a Single Allylic Hemiacetal. Organic Letters 9:13, pages 2445-2448.
Crossref
Jeffrey A. McKinney, Chi-Ming Che, Man-Kin Wong & Ernest S. Gore. 2001. Encyclopedia of Reagents for Organic Synthesis. Encyclopedia of Reagents for Organic Synthesis.
Arlette Solladié‐Cavallo, Elias Choucair, Milan Balaz, Paolo Lupattelli, Carlo Bonini & Nadia Di Blasio. (2006) A Mild Stereo‐ and Enantiospecific Conversion of 2,3‐Diaryl‐Substituted Oxiranes into 2,2‐Dimethyl‐1,3‐Dioxolanes by an Acetone/Amberlyst 15 System. European Journal of Organic Chemistry 2006:13, pages 3007-3011.
Crossref
Jeffrey A. McKinney, Chi-Ming Che & Man-Kin Wong. 2001. Encyclopedia of Reagents for Organic Synthesis. Encyclopedia of Reagents for Organic Synthesis.
Antonio Procopio, Renato Dalpozzo, Antonio De Nino, Loredana Maiuolo, Monica Nardi & Beatrice Russo. (2005) Synthesis of Acetonides from Epoxides Catalyzed by Erbium(III) Triflate. Advanced Synthesis & Catalysis 347:10, pages 1447-1450.
Crossref
Guixian Li, Bo Wang, Jianming Wang, Yong Ding, Liang Yan & Jishuan Suo. (2005) Efficient and highly-selective cycloaddition of epoxides with carbonyl compound over Wells–Dawson type heteropolyacids. Journal of Molecular Catalysis A: Chemical 236:1-2, pages 72-76.
Crossref
. (2005) Copper(II)-catalyzed Formation of 1,3-Dioxolanes from Oxiranes. Bulletin of the Korean Chemical Society 26:2, pages 221-222.
Crossref
José M. Concellón, José Ramón Suárez, Santiago García-Granda & M. Rosario Díaz. (2004) Totally Selective Ring-Opening of Amino Epoxides with Ketones:  A General Entry to Enantiopure (2 R ,3 S )- and (2 S ,3 S )-3-Aminoalkano-1,2-diols . Organic Letters 7:2, pages 247-250.
Crossref
L. I. Kas?yan, I. N. Tarabara & A. O. Kas?yan. (2004) Transformation of oxiranes into other oxygen-containing heterocyclic systems. Russian Journal of Organic Chemistry 40:9, pages 1227-1257.
Crossref
Majid Moghadam, Shahram Tangestaninejad, Valiollah Mirkhani & Reza Shaibani. (2004) Rapid and efficient ring opening of epoxides catalyzed by a new electron deficient tin(IV) porphyrin. Tetrahedron 60:29, pages 6105-6111.
Crossref
Habib Firouzabadi, Nasser Iranpoor & Hamid Reza Shaterian. (2002) 2,4,4,6-Tetrabromo-2,5-cyclohexadienone (TABCO) as a Versatile, Efficient, and Chemoselective Catalyst for the Acetalization and Transacetalization of Carbonyl Compounds, the Preparation of Acetonides from Epoxides and Acylals (1,1-Diacetates) from Aldehydes. Bulletin of the Chemical Society of Japan 75:10, pages 2195-2205.
Crossref
Michael B. Smith. 2002. Compendium of Organic Synthetic Methods. Compendium of Organic Synthetic Methods 157 169 .
S. Tangestaninejad, M.H. Habibi, V. Mirkhani & M. Moghadam. (2019) Conversion of epoxides into 1,3-dioxolanes catalysed by high oxidation state metalloporphyrins. Journal of Chemical Research 2001:9, pages 365-367.
Crossref
Imre Bucsi, Anita Meleg, Árpád Molnár & Mihály Bartók. (2001) Brønsted acid catalyzed formation of 1,3-dioxolanes from oxiranes and ketones. Journal of Molecular Catalysis A: Chemical 168:1-2, pages 47-52.
Crossref
E. Peter Kündig & Christophe M. Saudan. 2000. Lewis Acids in Organic Synthesis. Lewis Acids in Organic Synthesis 597 652 .
Nasser Iranpoor & Hadi Adibi. (2000) Iron(III) Trifluoroacetate as an Efficient Catalyst for Solvolytic and Nonsolvolytic Nucleophilic Ring Opening of Epoxides. Bulletin of the Chemical Society of Japan 73:3, pages 675-680.
Crossref
R. Alan Aitken & Neil J. wilson. 1999. A Critical Review of the 1998 Literature preceded by two Chapters on Current Heterocyclic Topics. A Critical Review of the 1998 Literature preceded by two Chapters on Current Heterocyclic Topics 200 212 .
Albert Padwa & S. Shaun Murphree. 1999. A Critical Review of the 1998 Literature preceded by two Chapters on Current Heterocyclic Topics. A Critical Review of the 1998 Literature preceded by two Chapters on Current Heterocyclic Topics 66 86 .
N. IRANPOOR & F. KAZEMI. (2010) ChemInform Abstract: Ru(III) Catalyzes the Conversion of Epoxides to 1,3‐Dioxolanes.. ChemInform 29:48.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.