Home Articles List Article Information
Iranian Journal of Catalysis
Journal Archive
Volume Volume 9 (2019)
Volume Volume 8 (2018)
Volume Volume 7 (2017)
Volume Volume 6 (2016)
Volume Volume 5 (2015)
Volume Volume 4 (2014)
Volume Volume 3 (2013)
Volume Volume 2 (2012)
Volume Volume 1 (2011)
Noroozizadeh, E. (2015). Spotlight- Ammonium carbonate: As a dual source reagent. Iranian Journal of Catalysis, 5(1), 101-103.
Ehsan Noroozizadeh. "Spotlight- Ammonium carbonate: As a dual source reagent". Iranian Journal of Catalysis, 5, 1, 2015, 101-103.
Noroozizadeh, E. (2015). 'Spotlight- Ammonium carbonate: As a dual source reagent', Iranian Journal of Catalysis, 5(1), pp. 101-103.
Noroozizadeh, E. Spotlight- Ammonium carbonate: As a dual source reagent. Iranian Journal of Catalysis, 2015; 5(1): 101-103.

Spotlight- Ammonium carbonate: As a dual source reagent

Article 14, Volume 5, Issue 1, Winter 2015, Page 101-103  XML PDF (836.93 K)
Document Type: Spotlights
Author
Ehsan Noroozizadeh email
Abstract
Ehsan Noroozizadeh was born in Dezful/Khoozestan, Iran. He received his B.S. in Pure Chemistry (2011) and M.S. in Organic Chemistry (2013) from Bu-Ali Sina University, Iran. He is currently working towards his Ph.D. under the supervision of Professor Mohammad Ali Zolfigol. His research interest is catalysis, including the application of homogeneous and heterogeneous catalysis in organic synthesis.
References
[1] K. Heinz Zapp, K. Heinz Wostbrock, M. Schäfer, K. Sato, H. Seiter, W. Zwick, R. Creutziger, H. Leiter, Ullmann's Encyclopedia of Industrial Chemistry, Wiley-VCH, Weinheim, 2012.
[2] C. Liu, Y. Nie, R. Dai, Y. Deng, J. Chem. Res. 38 (2014) 208-210.
[3] (a) M.A. Zolfigol, P. Salehi, M. Safaiee, Lett. Org. Chem. 3 (2006) 153-156. (b) F. Tamaddon, Z. Razmi, A.A. Jafari, Tetrahedron Lett. 51 (2010) 1187-1189. (c) D. Habibi, M.A. Zolfigol, M. Safaiee, J. Chem. (2013) 1-6.
[4] E. Gallienne, G.G. Muccioli, D.M. Lambert, M. Shipman, Tetrahedron Lett. 49 (2008) 6495-6497.
[5] V.N. Telvekar, R.A. Rane, Tetrahedron Lett. 48 (2007) 6051-6053.
[6] (a) E. Ware, Chem. Rev. 46 (1950) 403-470. (b) I. Ugi, B. Werner, A. Domling, Molecules 8 (2003) 53-66.
[7] (a) C.W. Bazil, T.A. Pedley, Annu. Rev. Med. 49(1998) 135-162. (b) M.S. Luer, Neurol. Res. 20 (1998) 178-182.
[8] (a) J. Knabe, J. Baldauf, A. Ahlhelm, Pharmazie 52 (1997) 912-919. (b) M. Matsukura, Y. Daiku, K. Ueda, S. Tanaka, T. Igarashi, N. Minami, Chem. Pharm. Bull. 40 (1992) 1823-1827. (c) K.J. Irgolic, Houben-Weyl Methods in Organic Chemistry, 4th ed., Vol. E12b; D. Klamann, Ed.; Thieme, Stuttgart, 1990.
[9] (a) L. Somsak, L. Kovacs, M. Toth, E. Osz, L. Szilagyi, Z. Gyorgydeak, Z. Dinya, T. Docsa, B. Toth, P.J. Gergely, Med. Chem. 44 (2001) 2843-2848. (b) R. Sarges, P.J. Oates, Prog. Drug Res. 40 (1993) 99-161.
[10] (a) H. Byrtus, M. Pawlowski, B. Duszynska, A. Wesolowska, E. Chojnacka-Wojcikand, A.J. Bojarski, Pol. J. Pharmacol. 53 (2001) 395-401. (b) A. Peyman, V. Wehner, J. Knolle, H.U. Stilz, G. Breipohl, K.H. Scheunemann, D. Carniato, J.M. Ruxer, J.F. Gourvest, T.R. Gadek, S.Bodary, Bioorg. Med. Chem. Lett. 10 (2000) 179-182.

Statistics
Article View: 937
PDF Download: 825