كتابة النص: الأستاذ الدكتور يوسف أبو العدوس - جامعة جرش قراءة النص: الدكتور أحمد أبو دلو - جامعة اليرموك مونتاج وإخراج : الدكتور محمد أبوشقير، حمزة الناطور، علي ميّاس تصوير : الأستاذ أحمد الصمادي الإشراف العام: الأستاذ الدكتور يوسف أبو العدوس
فيديو بمناسبة الإسراء والمعراج - إحتفال كلية الشريعة بجامعة جرش 2019 - 1440
فيديو بمناسبة ذكرى المولد النبوي الشريف- مونتاج وإخراج الدكتور محمد أبوشقير- كلية تكنولوجيا المعلومات
التميز في مجالات التعليم والبحث العلمي، وخدمة المجتمع، والارتقاء لمصاف الجامعات المرموقة محليا واقليميا وعالميا.
المساهمة في بناء مجتمع المعرفة وتطوره من خلال إيجاد بيئة جامعية، وشراكة مجتمعية محفزة للابداع، وحرية الفكر والتعبير، ومواكبة التطورات التقنية في مجال التعليم، ومن ثم رفد المجتمع بما يحتاجه من موارد بشرية مؤهلة وملائمة لاحتياجات سوق العمل.
تلتزم الجامعة بترسيخ القيم الجوهرية التالية: الإلتزام الإجتماعي والأخلاقي، الإنتماء،العدالة والمساواة، الإبداع، الجودة والتميّز، الشفافية والمحاسبة، الحرية المنظبطة والمستقبلية.
حائز على جائزة افضل رسالة دكتوراة على مستوى جامعة برشلونة المستقلة عن العام الدراسي 2014-2015
حاصل على درجة الدكتوراة في علم العقاقير وكيمياء العقاقير بإمتياز مع مرتبة الشرف
حاصل على دبلوم الدراسات العليا في علم الأدوية
حاصل على ماجستير في علم الأدوية
من قسم علم الأدوية من جامعة برشلونة المستقلة
عميد كلية الصيدلة و كلية التمريض (2020-حتى الآن)
رئيس قسم العلوم الصيدلانية (2017-2020)
مشرف الجودة و الاعتماد (2016-2020)المرشد الأكاديمي في كلية الصيدلة من 2016 و حتى 2020مشرف التدريب الميداني الصيدلانيضابط ارتباط و محرر أخبارممثل كلية الصيدلة في مجلس الجامعة
و دكتور محاضر لكل من المواد التالية
(Ph.D. in Pharmacology (Excellent cum laude
Thesis title: Antifungal active principles from the root and rhizome of Ferula hermonis
Autonomous University of Barcelona
Diploma of Advanced Studies in Pharmacology
Reaseach Sufficiency
Master Degree in Pharmacology
Determination of Amphotericin B in cerebrospinal fluid of a patient infected with HIV with cryptococcal meningitis, using high performance liquid chromatography HPLC
Bachelor Degree in Pharmacy
University of Medicine and Pharmacy GR.T.POPA
Teaching Assistant Professor at the Faculty of Pharmacy, Jerash University since octuber 2016 until today
Teaching Assistant Professor at the Faculty of Pharmacy, University of Barcelona since september 2012 until september 2016
Experimental Techniques
Essential oils analysis by gas chromatography (GC) and gas chromatography-mass espectrometry (GC-MS), thin-layer chromatography (TLC), preparative column liquid chromatography (CC), extraction and distillation techniques, component separation and purifiction, identification by nuclear magnetic resonance (NMR), high performance liquid chromatography (HPLC), analysis and daily tasks of thelaboratory, validation of analytical techniques, drafting of reports generated due to analytical activities in accordance with GLP. Fungi handling and performing antifungal testing (antifungigram and bioautography) and determination of minimal inhibitory concentration (MIC) and minimal fungicidal concentration (MFC).
OTHER WORK EXPERIENCE
2015 – 2016 Pharmacist at Sombrerers Pharmacy “Alain Adolfo Rodriguez Basciano”C/ Sombrerers 19, Barcelona 08019, as a Pharmacist in-charge.2014 - 2015 Pharmacist at Galup Pharmacy "Mireia Galup Russines" C / Casp, 23 - PauClaris, 83, Barcelona, as a pharmacist.2005 – 2014 Pharmacist in-charge at Clapés Pharmacy "Josep Clapés i Antoja" Rambla de Sant Josep, nº 98, Barcelona.2004 – 2005 Pharmacist at Montserrat Pharmacy “Maria Isabel Espinosa Gimenez”, Rambla de Estudios 118, Barcelona.1998 – 2000 Scientific Research Office Manager at Al Jafari Drug Store, Amman, Jordan.1996 – 1998 Pharmacist in-charge at Al Jafari Pharmacy, Amman, Jordan.
Ginger contain biological active components that may contribute significantly to the therapeutic applications of ginger-derived products. 6-Gingerol has long been used as a ginger marker. HPLC was used to perform quantitative measurements of 6-Gingerol and its principal degradation product. In additon, the pH factor to be one of the most important factors in the stability contition of ginger liquid extractions. The rate of degradtion was shown to be pH dependent, with the maximum stabilty at pH 4. At 100ºC and pH 1, the reversible breakdown of 6-Gingerol was quit quick, reaching equilibrium in less than 2 hours. The coefficient of correlation were larger than 0.994. The HPLC approch described in this article has been validated by reaserchers and can be used to verify the stabilty of 6-Gingerol. It is also suitable for ginger reformulation research. The stabilty of ginger solution at various pH (4-7) was investgated. The content of 6-gingerol in various formulations was assessed. Ginger stabilty: According to the regulations, the extract must be stable after 180 days at 40 degree Celsius, with not more than 10% of the active component or active markers degraded. Therefore, the experimental work has been put on hold while the researchres wait for the samples to go through the process of repose at 40 degrees Celsius for a period of time, after which will be analyzed; if the result are promising, the researchrs will continue to confirm the final time of 180 days; if not, the researchrs will try another therory.
The platinum nanoparticle electrode, modified by iodine (PtNPs/I), was designed to simultaneously determine the use of Cyclic Voltammetry (CV) for silver ion. The analyzed maximum anodic peak current and maximum anodic potential were performed. The platinum nanoparticles deposited were characterized by electron dispersive X-ray spectroscopy (EDX), cyclic voltammetry and scanning electron microscope (SEM). The SEM micrograph shows that the size, shape, and homogeneity of platinum nanostructures are affected by deposition time and the frequency of the potential regime using the parameters El= -0.4V, Eh=0V, dE/dT = 100 mV/s, frequency of 100 Hz, 2 min deposition time and concentration of platinum solution 10-4 M. The purpose of this work is to investigate the catalytic properties of the nanostructure platinum. It is found that the iodine monolayer was absorbed irreversibly to platinum nanostructured electrodes. Cyclic voltammetry experiments on iodine-coated platinum electrodes revealed their remarkable inertness to molecular adsorption, implying suppression of surface processes, interferences, and the overall current background in voltammetric measurements. Potentiostat adsorption of iodine at 0.20 V was used to create iodine-coated platinum electrodes. In 0.5M H2SO4, the passive potential window (working potential range) is approximately from -0.10 to 0.95 V. Voltammetric measurements of Ag+ on the iodine-coated electrode revealed a linear relationship between the anodic peak current and the silver ion bulk concentration. With a correlation coefficient of 0.993, the detection limit was 6.8 X 10-9 M
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