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Pharmaceutical Chemistry Research Group
Dr. Muhammad Hassham Hassan Bin Asad
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Designation:
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Assistant professor
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Email:
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hasshamasad@cuiatd.edu.pk
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Phone No. :
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0992383591
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Role:
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Faculty
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Research Interests:
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Proteomics, Cell Lines/Culture, Snake Venom Enzymatic assays, Natural Product Chemistry and Radio Labeling Isotopes
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Academics/ Degrees
- M.Phil; Bahauddin-Zakariya-University, Multan, Pakistan. 2008
- B.Pharmacy; Bahauddin-Zakariya-University, Multan, Pakistan. 2006
Publications/Papers
2022
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Journal
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Asad. M.H.H.B,A. Mannan
"Multifunctional toxin phospholipase A2 (PLA2) in Naja oxiana venom, a promising target for 2,5-disubstituted-1,3,4-oxadiazole derivatives"
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CURRENT SCIENCE
,Volume 123
,Issue 5
,Page 650-657
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2022
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2020
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Journal
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Dr. Jamshed Iqbal,Ghulam Murtaza,Albert A. Rizvanov,S. Ali,Asad. M.H.H.B,, Fahad Khan
"Biological Evaluation of Newly Synthesized Biaryl Guanidine Derivatives to Arrest β-Secretase Enzymatic Activity Involved in Alzheimer’s Disease"
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BioMed Research International
,Volume 2020
,Page 8934289
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2020
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A. Mannan,Asad. M.H.H.B,Dr. M. Arfat Yameen,I.Amirzada,Shujaat A.K, SA Khan
"Effect of varying quantities of polymer on preparation and stability evaluation of carbamazepine cocrystals with dicarboxylic acid coformers"
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Pakistan Journal of Pharmaceutical Sciences
,Volume 33
,Issue 4
,Page 1755-1761
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2020
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2017
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Journal
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Asad. M.H.H.B,Izhar Hussain,Anna katherina Jager
"ICP-OES analysis of Naja naja karachiensis venom: Inorganic ions for turning on and off enzymatic actions. "
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Current Science, 2, February, 2017
,Volume 112
,Issue 3
,Page 45-460
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2017
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2012
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Journal
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Asad. M.H.H.B
"The adsorption studies of non-ionic surfactants (tween 20, tween 40 and tween 80) were conducted at olive oil-water, sunflower oil-water and corn oil-water interfaces by ring detachment method with a du Nouy Tensiometer at 20 °C. A decrease in interfacial tension with an increase in surfactant concentration was observed at all the oil-water interfaces under investigation. Surface excess was calculated from Gibb’s equation while area per molecule was computed from surface excess. Surface pressure-area curves were plotted to study the states of films formed. On close examination of π-A graphs, it was indicated that all the graphs have three distinct parts. The extreme left portion (a) of the graphs represents condensed state, called solid film region, the curved region (b) of the π-A graphs corresponds to liquid film region, while the gaseous film region (c) is indicated by the shallow right hand part of the curves. The solid film region was more prominent in corn oil-water system while a more distinct gaseous film region was observed in olive oil-water system than in other oil-water systems studied. However, liquid film region was observed in all the systems investigated. The observed difference in the behaviour of surfactants at different vegetable oil-water interfaces could be attributed to the difference in types of interacting forces between the surfactant molecules and various vegetable oil phases."
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Latin American Journal of Pharmacy
,Volume 31
,Issue 6
,Page 864-868
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2012
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