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Synthesis and Characterisation of Calix [4] Pyrrole and Its Derivative for The Removal of Pulluting Ions From Water

المؤلف الرئيسي: Al Harbi, Adhwa Abd Alghani (Author)
مؤلفين آخرين: Danil, Angela F. (Advisor)
التاريخ الميلادي: 2012
موقع: غلدفورد
الصفحات: 1 - 75
رقم MD: 751960
نوع المحتوى: رسائل جامعية
اللغة: الإنجليزية
الدرجة العلمية: رسالة ماجستير
الجامعة: University of Surrey
الكلية: Faculty of Engineering and Physical Sciences
الدولة: بريطانيا
قواعد المعلومات: +Dissertations
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LEADER 02774nam a22003257a 4500
001 0062449
041 |a eng 
100 |9 396120  |a Al Harbi, Adhwa Abd Alghani  |e Author 
245 |a Synthesis and Characterisation of Calix [4] Pyrrole and Its Derivative for The Removal of Pulluting Ions From Water 
260 |a غلدفورد  |c 2012 
300 |a 1 - 75 
336 |a رسائل جامعية 
502 |b رسالة ماجستير  |c University of Surrey  |f Faculty of Engineering and Physical Sciences  |g بريطانيا  |o 0047 
520 |a Water pollution is increasingly becoming a global issue. A pollutant species such as arsenic, mercury and fluoride present in water can lead to serious environmental and health problems. Therefore, the synthesis of macrocyclic receptors capable to remove such species from water become one of the most interesting research area in the field supramolecular chemistry. In this work the main objective was to design receptors with selective properties for the removal of polluting ions from water. Thus a calix[4]pyrrole derivative, namely, meso- tetramethyl-tetrakis[N-(2-phenoxyethyl) N’phenylthiourea]calix[4]pyrrole CP(III) was synthesised and characterised by several NMR techniques.. 1H NMR was used to identify the active sites of complexation between the ligand and the ionic species in DMSO-d6 at 298 K. From the 1H NMR data it was discovered that this receptor interacts only with mercury and fluoride ions. Conductance measurements were performed to determine the composition of the complex and to obtain qualitative information on the strength of receptor-ion interactions. The degree of recognition of the receptor for these pollutants is reflected in the thermodynamics associated with these processes. These were determined by nano-calorimetry. It is concluded that the receptor CP(III) behaves as a ditopic receptor . Final conclusions and suggestions for further work aiming to explore this material for water decontamination purposes are given. 
653 |a تلوث البيئة  
653 |a تلوث المياه 
653 |a تنقية المياه 
700 |9 396122  |a Danil, Angela F.  |e Advisor 
856 |u 9823-021-002-0047-T.pdf  |y صفحة العنوان 
856 |u 9823-021-002-0047-A.pdf  |y المستخلص 
856 |u 9823-021-002-0047-C.pdf  |y قائمة المحتويات 
856 |u 9823-021-002-0047-F.pdf  |y 24 صفحة الأولى 
856 |u 9823-021-002-0047-1.pdf  |y 1 الفصل 
856 |u 9823-021-002-0047-2.pdf  |y 2 الفصل 
856 |u 9823-021-002-0047-O.pdf  |y الخاتمة 
856 |u 9823-021-002-0047-R.pdf  |y المصادر والمراجع 
856 |u 9823-021-002-0047-S.pdf  |y الملاحق 
930 |d n 
995 |a +Dissertations 
999 |c 751960  |d 751960