DEPARTMENT.FACULTY

photo
Prof. Syed Mashhood Ali
  • DEPARTMENT_STAFF.QUALIFICATION

    Ph.D

  • DEPARTMENT_STAFF.DESIGNATION

    Professor

  • DEPARTMENT_STAFF.THRUST_AREA

    Supramolecular Chemistry

  • DEPARTMENT_STAFF.ADDRESS

    Delhi Gate, Big Bridge, Aligarh-202001 (UP)

  • DEPARTMENT_STAFF.MOBILE

    8791288330

  • DEPARTMENT_STAFF.EMAIL

    smashhoodali@gmail.com

DEPARTMENT_STAFF.COMPLETE_CV
DEPARTMENT_STAFF.PROFILE

I pursued all my education from AMU which I joined in 1975 as a PUC student and left in 1986 after being awarded the Ph.D. degree. Immediately after completing my Ph.D., I was offered the Senior Research Fellowship/Research Associateship at Central Drug Research Institute, Lucknow. I worked there for about a year and joined Kyoto University, Kyoto as a Monbusho scholar. Before my tenure as Monbusho scholar expired, I was offered a postdoctoral position with Prof. Ronald t. Borchardt at University of Kansas, Lawrence (USA). After working there for around two years, I joined ISK Mountain View research Center at Sunnyvale, CA (USA), a Japanese chemical company in USA, as Senior Scientist and joined my parent institution as a Lectures in 1996. I am working here as Professor from 2014 to date. As a postdoc fellow I have wide range of experience in several areas mainly medicinal chemistry, pharmaceutical chemistry, synthetic organic chemistry and natural products chemistry. I have published about 40 research papers in journals of international repute. Some of the journals in which I have contributed are: 1. Journal of Organic Chemistry 2. Tetrahedron Letters 3. Journal of Chemical Society, Perkin 4. Chemical Communications 5. Bulletin Chemical society Japan 6. Magnetic Resonance in Chemistry 7. Journal of Inclusion Phenomenon & Macrocyclic Chemistry

  1. Selective nuclear iodination of 2'-Hydroxy-4,4',6'-Trimethoxychalcone with ICI

    SM Ali, SK Roy, M Ilyas, (1983) Chemistry & Industry, 680

  2. NiCl2-Zn-KI-catalyzed transformation of chalcones. 2: A convenient synthesis of 5-hydroxyflavones

    SM Ali, J Iqbal, M Ilyas, (1985), Chemistry & Industry, 276

  3. NiCl2-Zn-KI-catalyzed transformation of chalcones. I: Synthesis of 5-hydroxyflavanones

    S. M. Ali, J. Iqbal, M. Ilyas, Published 1984, Chemistry

    Journal of Chemical Research-s

  4. NMR INVESTIGATION ON THE INTERACTION OF - -CYCLODEXTRIN AND AMPICILLIN

    S. K. Upadhyay and S. M. Ali, Journal of structural chemistry 51(5), 972-975, (2010) 


  5. Complexation of roxatidine acetate hydrochloride with ?-cyclodextrin: NMR spectroscopic study


  6. Biomimetic approach to biflavonoids: Oxidative coupling of 2'-hydroxychalcones with iodine in alkaline methanol

    Ali, S. M., & Ilyas, M. (1986). Biomimetic approach to biflavonoids: Oxidative coupling of 2'-hydroxychalcones with iodine in alkaline methanol. The Journal of Organic Chemistry, 51(26), 5415-5417.

  7. Reaction of 2-hydroxydibenzoylmethanes with the dimethyl sulphoxide-acetic anhydride reagent system: a novel route to 3-benzoyl-2-methylchromones

    ALI, S. M., & ILYAS, M. (1987). Reaction of 2-hydroxydibenzoylmethanes with the dimethyl sulphoxide-acetic anhydride reagent system: a novel route to 3-benzoyl-2-methylchromones. Journal of chemical research. Synopses (Print), (2), 52-53.

  8. Preparation of ?-(N-trimethylsilyl) imino esters and their use in the synthesis of ?-amino esters and 2-alkoxycarbonylimidazol-4 (2 H)-ones

    Matsuda, Y., Tanimoto, S., Okamoto, T., & Ali, S. M. (1989). Preparation of ?-(N-trimethylsilyl) imino esters and their use in the synthesis of ?-amino esters and 2-alkoxycarbonylimidazol-4 (2 H)-ones. Journal of the Chemical Society, Perkin Transactions 1, (2), 279-281.

  9. Improved Synthesis of ?-Formylcarboxylic Esters

    Matsuda, Y., Ali, S. M., & Tanimoto, S. (1989). Improved Synthesis of ?-Formylcarboxylic Esters. Bull. Inst. Chem. Res., Kyoto Univ, 66(4).

  10. Reaction of Di-?-chlorobis {2-[1-?allpl} dipalladium with Halogens: A Possible Involvement of Pd (IV) Intermediate (Commemoration Issue Dedicated to Professor …

    Ali, S. M., Tanimoto, S., & Okamoto, T. (1989). Reaction of Di-?-chlorobis {2-[1-?allpl} dipalladium with Halogens: A Possible Involvement of Pd (IV) Intermediate (Commemoration Issue Dedicated to Professor Shinzaburo OKA On the Occasion of His Retirement). Bulletin of the Institute for Chemical Research, Kyoto University, 67(3), 89-92.

  11. A general, high yield synthesis of ?-oxoketene dithioacetals and O-(1-alkoxy-2, 2-dialkyl) vinyl S-alkyl dithiocarbonates from carboxylic esters

    Ali, S. M., & Tanimoto, S. (1989). A general, high yield synthesis of ?-oxoketene dithioacetals and O-(1-alkoxy-2, 2-dialkyl) vinyl S-alkyl dithiocarbonates from carboxylic esters. Journal of the Chemical Society, Chemical Communications, (11), 684-685.

  12. General, High Yield Synthesis of ?-Oxoketene Dithioacetals and O-(1-Alkoxy-2, 2-dialkyl) vinyl N, N-Diisopropylammonium Dithiocarbonates

    Mashhood, S., & Tanimoto, S. (1990). General, High Yield Synthesis of ?-Oxoketene Dithioacetals and O-(1-Alkoxy-2, 2-dialkyl) vinyl N, N-Diisopropylammonium Dithiocarbonates. Bulletin of the Institute for Chemical Research, Kyoto University, 68(3), 199-207.

  13. Complexation between venlafaxine hydrochloride and ?-cyclodextrin: Structural study by nuclear magnetic resonance spectroscopy

    Ali, S. M., Koketsu, M., & Asmat, F. (2006). Complexation between venlafaxine hydrochloride and ?-cyclodextrin: Structural study by nuclear magnetic resonance spectroscopy. Bulletin of the Korean Chemical Society, 27(9), 1397-1400.

  14. A general, high yield synthesis of ?-oxoketene dithioacetals and O-(1-alkoxy-2, 2-dialkyl) vinyl S-alkyl dithiocarbonates from carboxylic esters

    Ali, S. M., & Tanimoto, S. (1989). A general, high yield synthesis of ?-oxoketene dithioacetals and O-(1-alkoxy-2, 2-dialkyl) vinyl S-alkyl dithiocarbonates from carboxylic esters. Journal of the Chemical Society, Chemical Communications, (11), 684-685.

  15. A novel approach to the synthesis of two versatile synthetic intermediates, 2, 3-bis (bromomethyl)-1, 3-butadiene and tetrakis (bromomethyl) ethylene

    Ali, S. M., Tanimoto, S., & Okamoto, T. (1988). A novel approach to the synthesis of two versatile synthetic intermediates, 2, 3-bis (bromomethyl)-1, 3-butadiene and tetrakis (bromomethyl) ethylene. The Journal of Organic Chemistry, 53(15), 3639-3640.

  16. Complexation of fluoxetine hydrochloride with ?-cyclodextrin. A proton magnetic resonance study in aqueous solution

    Ali, S. M., Asmat, F., Maheshwari, A., & Koketsu, M. (2005). Complexation of fluoxetine hydrochloride with ?-cyclodextrin. A proton magnetic resonance study in aqueous solution. Il Farmaco, 60(5), 445-449.

  17. Synthesis and evaluation of 4?-5?-dehydro-5?-fluoroaristeromycins as S-adenosyl-L-homocysteine (AdoHcy) hydrolase inhibitors

    Liu, S., Wolfe, M. S., Yuan, C., Ali, S. M., & Borchardt, R. T. (1992). Synthesis and evaluation of 4?-5?-dehydro-5?-fluoroaristeromycins as S-adenosyl-L-homocysteine (AdoHcy) hydrolase inhibitors. Bioorganic & Medicinal Chemistry Letters, 2(12), 1741-1744.

  18. New Benzoic Esters of Loganin and 6?-Hydroxyloganin from Nyctanthers arbor-tristis

    Srivastava, V., Rathore, A., Ali, S. M., & Tandon, J. S. (1990). New Benzoic Esters of Loganin and 6?-Hydroxyloganin from Nyctanthers arbor-tristis. Journal of Natural Products, 53(2), 303-308.

  19. NMR spectroscopy of inclusion complex of d-(-)-chloramphenicol with ?-cyclodextrin in aqueous solution

    Ali, S. M., Asmat, F., & Maheshwari, A. (2004). NMR spectroscopy of inclusion complex of d-(-)-chloramphenicol with ?-cyclodextrin in aqueous solution. Il Farmaco, 59(10), 835-838.

  20. Efficient enantioselective syntheses of carbocyclic nucleoside and prostaglandin synthons

    Ali, S. M., Ramesh, K., & Borchardt, R. T. (1990). Efficient enantioselective syntheses of carbocyclic nucleoside and prostaglandin synthons. Tetrahedron letters, 31(11), 1509-1512.

  21. Study of Cyclodextrin inclusion complexes of Pharmaceuticals by NMR Spectroscopy

    Fatima, K. (2014) Study of Cyclodextrin inclusion complexes of Pharmaceuticals by NMR Spectroscopy 
    (Doctoral dissertation, Aligarh Muslim University).

  22. Complexation studies of Pharmaceuticals with Cyclodextrin using NMR Spectroscopy
    Khan, S. (2013). Complexation studies of Pharmaceuticals with Cyclodextrin using NMR Spectroscopy (Doctoral dissertation, Aligarh Muslim University).


  23. Preparation and Characterization of Inclusion Compounds of Pharmaceuticals with Cyclodextrin

    Maheshwari, A. (2006). Preparation and Characterization of Inclusion Compounds of Pharmaceuticals with Cyclodextrin (Doctoral dissertation, Aligarh Muslim University).

  24. NMR Spectroscopic Study of Cyclodextrin Inclusion Complexes

    Yadav, A. (2009). NMR Spectroscopic Study of Cyclodextrin Inclusion Complexes (Doctoral dissertation, Aligarh Muslim University).

  25. A comparative study of complexation of enalapril with ?-, ?-and ?-cyclodextrins in aqueous medium: structure elucidation of inclusion complexes using NMR

    Khan, S., Fatma, K., & Ali, S. M. (2012). A comparative study of complexation of enalapril with ?-, ?-and ?-cyclodextrins in aqueous medium: structure elucidation of inclusion complexes using NMR spectroscopic and molecular mechanics methods. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 72(3), 413-421.

  26. Structure elucidation of ?-cyclodextrin–xylazine complex by a combination of quantitative 1H–1H ROESY and molecular dynamics studies

    Ali, S. M., Fatma, K., & Dhokale, S. (2013). Structure elucidation of ?-cyclodextrin–xylazine complex by a combination of quantitative 1H–1H ROESY and molecular dynamics studies. Beilstein journal of organic chemistry, 9(1), 1917-1924.

  27. spectroscopic study of complexation of enalapril maleate with b-cyclodextrin

    Ali, S. M., Maheshwari, A., Asmat, F., & Koketsu, M. (2006). Quím. Nova [online]. 2006, vol. 29, n. 4.

  28. Chemistry of natural products: synthesic studies on flavonoids and related systems

    Mashhood Ali, S. (1986). Chemistry of natural products: synthesic studies on flavonoids and related systems (Doctoral dissertation, Aligarh Muslim University).

  29. Demonstrating accuracy of the already proposed protocol for structure elucidation of cyclodextrin inclusion complexes by validation using quantitative ROESY analysis

    Imtiaz, S., Muzaffar, S., & Ali, S. M. (2021). Demonstrating accuracy of the already proposed protocol for structure elucidation of cyclodextrin inclusion complexes by validation using quantitative ROESY analysis. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 1-17.

  30. High Resolution NMR Spectroscopic Study of Complexation of Hydroxyzine Hydrochloride with ??Cyclodextrin in Aqueous Solution

    Ali, S. M., Maheshwari, A., Upadhyay, S. K., & Nam, K. C. (2006). High Resolution NMR Spectroscopic Study of Complexation of Hydroxyzine Hydrochloride with ??Cyclodextrin in Aqueous Solution. Journal of the Chinese Chemical Society, 53(4), 867-871.

  31. Spectroscopic Study on Interaction of ??Cyclodextrin with Triprolidine Hydrochloride

    Ali, S. M., & Asmat, F. (2006). Spectroscopic Study on Interaction of ??Cyclodextrin with Triprolidine Hydrochloride. Chinese Journal of Chemistry, 24(5), 665-668.

  32. Complexation of (RS)-benzhexol with ?-cyclodextrin: structure elucidation of diastereomeric complexes by use of quantitative 1 H-1 H ROESY and computational

    Ali, S. M., & Shamim, S. (2015). Complexation of (RS)-benzhexol with ?-cyclodextrin: structure elucidation of diastereomeric complexes by use of quantitative 1 H-1 H ROESY and computational methods. Monatshefte für Chemie-Chemical Monthly, 146(2), 283-290.

  33. Complexation of fluvastatin sodium with ?-cyclodextrin: NMR spectroscopic study in solution

    Ali, S. M., Upadhyay, S. K., Maheshwari, A., & Koketsu, M. (2006). Complexation of fluvastatin sodium with ?-cyclodextrin: NMR spectroscopic study in solution. Journal of inclusion phenomena and macrocyclic chemistry, 55(3-4), 325-328.

  34. 1 H NMR spectroscopic investigation of ?-cyclodextrin inclusion compounds with parecoxib

    Ali, S. M., Asmat, F., & Koketsu, M. (2007). 1 H NMR spectroscopic investigation of ?-cyclodextrin inclusion compounds with parecoxib. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 59(1), 191-196.

  35. Quantitative ROESY analysis for unravelling structure of glafenine and ?-cyclodextrin complex

    Ali, S. M., & Muzaffar, S. (2019). Quantitative ROESY analysis for unravelling structure of glafenine and ?-cyclodextrin complex. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 94(1), 95-102.

  36. Reaction of 2-hydroxyacetophenones with thionyl chloride in the presence of a catalytic amount of pyridine

    Ali, S. M., Ilyas, M., & Tanimoto, S. (1988). Reaction of 2-hydroxyacetophenones with thionyl chloride in the presence of a catalytic amount of pyridine. Bulletin of the Chemical Society of Japan, 61(9), 3289-3293.

  37. NMR spectroscopic study of inclusion complexes of cetirizine dihydrochloride and ?-cyclodextrin in solution

    Ali, S. M., Upadhyay, S. K., & Maheshwari, A. (2007). NMR spectroscopic study of inclusion complexes of cetirizine dihydrochloride and ?-cyclodextrin in solution. Spectroscopy, 21(3), 177-182.

  38. Structural determination of midazolam/beta-cyclodextrin inclusion complex by an already proposed protocol and molecular docking studies by quantitative analysis

    Imtiaz, S., Banoo, S., Muzaffar, S., & Ali, S. M. (2021). Structural determination of midazolam/beta-cyclodextrin inclusion complex by an already proposed protocol and molecular docking studies by quantitative analysis. Structural Chemistry, 1-12.

  39. Molecular recognition of flunarizine dihydrochloride and ?-cyclodextrin inclusion complex by NMR and computational approaches

    Upadhyay, S. K., & Ali, S. M. (2018). Molecular recognition of flunarizine dihydrochloride and ?-cyclodextrin inclusion complex by NMR and computational approaches. Chemistry Central Journal, 12(1), 1-9.

  40. Structure Elucidation of Benzhexol-?-Cyclodextrin Complex in Aqueous Medium by 1H NMR Spectroscopic and Computational Methods

    Ali, S. M., & Shamim, S. (2014). Structure elucidation of benzhexol-?-cyclodextrin complex in aqueous medium by 1 H NMR spectroscopic and computational methods. Journal of Encapsulation and Adsorption Sciences, 4(03), 63.

  41. A proton magnetic resonance study of fexofenadine/?-cyclodextrin inclusion complexes in aqueous solution

    Ali, S. M., & Maheshwari, A. (2005). A proton magnetic resonance study of fexofenadine/?-cyclodextrin inclusion complexes in aqueous solution. Bulletin of the Korean Chemical Society, 26(12), 2061-2064.

  42. Analysis of computational models of ?-cyclodextrin complexes: structural studies of morniflumate hydrochloride and ?-cyclodextrin complex in aqueous solution

    Ali, S. M., & Shamim, S. (2015). Analysis of computational models of ?-cyclodextrin complexes: structural studies of morniflumate hydrochloride and ?-cyclodextrin complex in aqueous solution by quantitative ROESY analysis. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 83(1), 19-26.

  43. Complexation of enalapril maleate with beta-cyclodextrin: NMR spectroscopic study in solution

    Ali, S. M., Maheshwari, A., Asmat, F., & Koketsu, M. (2006). Complexation of enalapril maleate with beta-cyclodextrin: NMR spectroscopic study in solution. Química Nova, 29(4), 685-688.

  44. Complexation studies of pioglitazone hydrochloride and ?-cyclodextrin: NMR (1H, ROESY) spectroscopic study in solution

    Ali, S. M., & Upadhyay, S. K. (2008). Complexation studies of pioglitazone hydrochloride and ?-cyclodextrin: NMR (1 H, ROESY) spectroscopic study in solution. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 62(1-2), 161-165.

  45. Solution structure of loperamide and ?-cyclodextrin inclusion complexes using NMR spectroscopy

    Upadhyay, S. K., & Ali, S. M. (2009). Solution structure of loperamide and ?-cyclodextrin inclusion complexes using NMR spectroscopy. Journal of chemical sciences, 121(4), 521-527.

  46. 1H NMR spectroscopic study of complexation of citalopram with ??cyclodextrin in aqueous solution

    Mashhood Ali, S., Maheshwari, A., & Inder Fozdar, B. (2007). 1H NMR spectroscopic study of complexation of citalopram with ??cyclodextrin in aqueous solution. Magnetic Resonance in Chemistry, 45(3), 253-256.

  47. NMR spectroscopic study of the inclusion complex of desloratadine with ?-cyclodextrin in solution

    Ali, S. M., Upadhyay, S. K., & Maheshwari, A. (2007). NMR spectroscopic study of the inclusion complex of desloratadine with ?-cyclodextrin in solution. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 59(3-4), 351-355.

  48. A biflavonoid from Garcinia nervosa

    Babu, V., Ali, S. M., Sultana, S., & Ilyas, M. (1988). A biflavonoid from Garcinia nervosa. Phytochemistry, 27(10), 3332-3335.

  49. Biomimetic approach to biflavonoids: Oxidative coupling of 2'-hydroxychalcones with iodine in alkaline methanol

    Ali, S. M., & Ilyas, M. (1986). Biomimetic approach to biflavonoids: Oxidative coupling of 2'-hydroxychalcones with iodine in alkaline methanol. The Journal of Organic Chemistry, 51(26), 5415-5417.

  50. Quantitative ROESY analysis of computational models: structural studies of citalopram and ??cyclodextrin complexes by 1H?NMR and computational methods

    Ali, S. M., & Shamim, S. (2015). Quantitative ROESY analysis of computational models: structural studies of citalopram and ??cyclodextrin complexes by 1H?NMR and computational methods. Magnetic Resonance in Chemistry, 53(7), 526-535.

  51. Complexation study of midazolam hydrochloride with ??cyclodextrin: NMR spectroscopic study in solution

    Ali, S. M., & Upadhyay, S. K. (2008). Complexation study of midazolam hydrochloride with ??cyclodextrin: NMR spectroscopic study in solution. Magnetic Resonance in Chemistry, 46(7), 676-679.

  52. Structure determination of fexofenadine???cyclodextrin complex by quantitative 2D ROESY analysis and molecular mechanics studies

    Ali, S. M., Khan, S., & Crowyn, G. (2012). Structure determination of fexofenadine  cyclodextrin complex by quantitative 2D ROESY analysis and molecular mechanics studies. Magnetic Resonance in Chemistry, 50(4), 299-304.

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