Structural, optical, and electrical characteristics of HPMC/PVA-I2O5 composites: Fabrication and performance analysis for energy storage applications

Abdu Saeed; ZabnAllah M.  Alaizeri; Saba A.  Aladeemy; Abeer Mohamed  Alosaimi; Faisal Katib  Alanazi; Reem  Alwafi; S.A.  Alghamdi; Amal Mohsen  Alghamdi; G.M.  Asnag

doi:10.1016/j.est.2024.112765

Structural, optical, and electrical characteristics of HPMC/PVA-I₂O₅ composites: Fabrication and performance analysis for energy storage applications

المؤلفون

Abdu Saeed جامعة ذمار المؤلف
ZabnAllah M. Alaizeri جامعة الملك سعود المؤلف
Saba A. Aladeemy جامعة سطام بن عبدالعزيز المؤلف
Abeer Mohamed Alosaimi جامعة الطائف المؤلف
Faisal Katib Alanazi جامعة الحدود الشمالية المؤلف
Reem Alwafi جامعة الملك عبد العزيز المؤلف
S.A. Alghamdi جامعة تبوك المؤلف
Amal Mohsen Alghamdi جامعة الملك خالد المؤلف
G.M. Asnag الجامعة الإماراتية الدولية المؤلف

DOI:

https://doi.org/10.1016/j.est.2024.112765

الكلمات المفتاحية:

Olymers Composites ، HPMC/PVA I2O5 ، energy storage

الملخص

تُستخدم مركبات البوليمر بشكل متزايد في تطبيقات تخزين الطاقة، لا سيما في المكثفات العازلة ، نظرًا لخصائصها المميزة ومزاياها مقارنةً بالإلكتروليتات السائلة التقليدية. في هذه الدراسة، بحثنا الخصائص البنيوية والبصرية والكهربائية والعازلة لأغشية مركبة من هيدروكسي بروبيل ميثيل سليلوز (HPMC) وبولي فينيل الكحول (PVA) _مملوءة بتراكيز مختلفة من خماسي أكسيد اليود (I₂O₅ ₎_، والمُحضّرة بطريقة الصبّ من المحلول. وقد أثّر دمج I₂O₅ في مصفوفة البوليمر بشكل ملحوظ على خصائص المركب. وكشفت تحليلات FTIR وXRD عن اضطرابات في البنية الجزيئية، وترتيب التبلور، ووجود أطوار بلورية من I₂O₅ في الأغشية المركبة. وأشارت حسابات نسبة التبلور إلى انخفاضها مع إضافة I₂O₅، مما أدى إلى زيادة محتوى الطور غير المتبلور، وهو _مايُحسّن _{التوصيل} الكهربائي ( _σ ) . _وأظهرت دراسات مطيافية الأشعة فوق البنفسجية/ المرئية انخفاضًا في فجوات الطاقة البصرية، مما _يُشير إلى تحسّن قدرة تخزين الشحنة. أظهر تحليل σ قيمًا مُحسّنة مع إضافة I₂O₅ ، مما يدل _على_تحسّن حركة الشحنات داخل الأغشية المركبة. وأبرزت السلوكيات المعتمدة على التردد في السماحية الكهربائية المعقدة ( ε ′ و ε ″) إمكانات هذه المركبات لتخزين الشحنات بكفاءة عبر نطاقات تردد مختلفة. وقدّم تحليل المعاوقة رؤىً حول الشحنات الفضائية والمسارات الموصلة داخل المركبات، مما يؤثر على _{خصائصها}الكهربائية . وأظهرت المكثفات المصنعة من مركبات HPMC/PVA-I₂O₅ _سعة تخزين طاقة مُحسّنة وخصائص توصيل مُتحكّم بها، مما يُشير إلى أداء واعد لتطبيقات تخزين الطاقة. تُبيّن نتائجنا أن مركبات HPMC/PVA-I₂O₅ _تُعدّ_موادعازلة محتملة لتكنولوجيا المكثفات.

السير الشخصية للمؤلفين

Abdu Saeed، جامعة ذمار

Abdu Saeed Department of Physics, Thamar University, Thamar 87246, Yemen Corresponding authors. Abdusaeed@tu.ed.ye Abdusaeed79@hotmail.com
ZabnAllah M. Alaizeri، جامعة الملك سعود

ZabnAllah M. Alaizeri
View in Scopus
Department of Physics and Astronomy, College of Science, King Saud University, Riyadh 11451, Saudi Arabia
Saba A. Aladeemy، جامعة سطام بن عبدالعزيز

Saba A. Aladeemy
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Chemistry Department, College of Science and Humanities, Prince Sattam Bin Abdul-Aziz University, Al-Kharj 11942, Saudi Arabia
Abeer Mohamed Alosaimi، جامعة الطائف

Abeer Mohamed Alosaimi
Current affiliation: Taif University, Taif, Saudi Arabia Scopus ID: 57208905712
Faisal Katib Alanazi، جامعة الحدود الشمالية

Faisal Katib Alanazi Department of Physics, Faculty of Sciences-Arar, Northern Border University, P.O. Box 1321, 91431 Arar, Saudi Arabia Corresponding authors. Faisal.katib.al@gmail.com
Reem Alwafi، جامعة الملك عبد العزيز

Reem Alwafi Department of Physics, Faculty of Science, King Abdulaziz University, Jeddah 21589, Saudi Arabia
S.A. Alghamdi، جامعة تبوك

S.A. Alghamdi Advanced Materials Research Laboratory, Department of Physics, Faculty of Science, University of Tabuk, Tabuk 71491, Saudi Arabia
Amal Mohsen Alghamdi، جامعة الملك خالد

Amal Mohsen Alghamdi Physics Department, Faculty of Science, King Khalid University, Abha 61411, Saudi Arabia
G.M. Asnag، الجامعة الإماراتية الدولية

G.M. Asnag
Department of Biomedical Engineering, College of Engineering and Information Technology, Emirates International University, Sana'a 16881, Yemen Correspondence to: G.M. Asnag, Department of Biomedical Engineering, College of Engineering and Information Technology, Emirates International University, Sana'a 16881, Yemen.

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2024-06-23

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2024

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الحقوق الفكرية (c) 2024 "This Open Access article is distributed under the Creative Commons Attribution 4.0 International License (CC BY 4.0), permitting unrestricted use, distribution, and adaptation provided the original author and source are properly credited."

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كيفية الاقتباس

Saeed, A., Alaizeri, Z. M. ., Aladeemy, S. A. ., Alosaimi, A. M. ., Alanazi, F. K. ., Alwafi, R. ., Alghamdi, S. ., Alghamdi, A. M. ., & Asnag, G. . (2024). Structural, optical, and electrical characteristics of HPMC/PVA-I2O5 composites: Fabrication and performance analysis for energy storage applications. المستودع الرقمي الجامعة الإماراتية الدولية, 1(1), 1-11. https://doi.org/10.1016/j.est.2024.112765

تنزيل الاقتباسات

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G.M. Asnag, Nessrin A. Kattan, Eman S. Alzahrani, M.A. Morsi, A.A. Al-Muntaser, Sadiq H. Khoreem, A.Y. Yassin, Optimizing PEO/HPMC polymer blends with Al2O3/MoO3 as hybrid nanofiller for enhanced dielectric performance and energy storage systems , المستودع الرقمي الجامعة الإماراتية الدولية: 2025
M. A. Morsi, G. M. Asnag, E. M. Abdelrazek, Sadiq H. Khoreem, Hassan G. El Gohary, M. A. Ahlam, Ahmed N. Al-Hakimi, Doaa Abdelhameed, Silver nanoparticle-enhanced PVA–PEO polymer electrolytes for energy storage and dielectric applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2026
Ali A Al-Muntaser, Eman Alzahrani, FA Al-Marhaby, Zainab M Alharbi, Turki Alkathiri, Sultan Albarakati, Saleh A Alghamdi, Ghaleb M Asnag, Abdu Saeed, Enhanced linear and nonlinear optical properties of poly(vinyl alcohol) films with manganese(III) tetraphenylporphyrin chloride additive for optoelectronic applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2025
K. M. A. Saron, S. Ghalab, M. Ibrahim, G. M. Asnag, Talal F. Qahtan, F. E. Hanash, Controlling the dielectric and optical properties of polyvinyl alcohol/polyethylene glycol blends by adding copper oxide nanoparticles for application in energy storage devices , المستودع الرقمي الجامعة الإماراتية الدولية: 2024
F. E. Hanash, Maha Aiiad Alenizi, G. M. Asnag, A. A. Al-Muntaser, M. O. Farea, Sadiq H. Khoreem, A. Y. Yassin, Tunable structural, optical, and electrical performance of PEMA/PMMA–CoCl₂ composites for advanced optoelectronics and energy storage applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2025

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A. A. Al-Muntaser, S. A. Al-Ghamdi, Eman Alzahrani, A. Rajeh, G. M. Asnag, Amani M. Al-Harthi, Reem Alwafi, Saeed Abdu , Saleh Aldwais, A. Y. Yassin , دراسة الخصائص التركيبية والبصرية لمركبات صبغة البنفسج البلوري/PVA لتطبيقات الإلكترونيات الضوئية الذكية المرنة , المستودع الرقمي الجامعة الإماراتية الدولية: 2024
Maha Aiiad Alenizi, E. H. Mater, G. M. Asnag, S. A. Al-Ghamdi, Amani M. Al-Harthi, Reem Alwafi, E. M. Abdallah, Ahmed N. Al-Hakimi, Eman Alzahrani, Randa A. Althobiti, E. M. Abdelrazek, A. A. Al-Muntaser, Abdu Saeed, Structural, optical, electrical, and dielectric properties of HPMC/PVP blend reinforced with I2O5 for optoelectronics and energy storage applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2024
Abdu Saeed, I. Guizani, F. E. Hanash, G. M. Asnag, Amani M. Al-Harthi, Reem Alwafi, Talal F. Qahtan, M. A. Morsi, Awatef S. Assran, Enhancing optical, structural, thermal, electrical properties, and antibacterial activity in chitosan/polyvinyl alcohol blend with ZnO nanorods: polymer nanocomposites for optoelectronics and food/medical packaging applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2024
A. A. Al-Muntaser, Soheib D. Alsahafi, Eman Alzahrani, Reem Alwafi, G. M. Asnag, Abdu Saeed, Synergistic Effects of ZnO and Cu Nanoparticles on the Properties of PVP/PEO Polymer Nanocomposites , المستودع الرقمي الجامعة الإماراتية الدولية: 2025
M.O. Farea, Eman Alzahrani, Tahani M. Alresheedi, Ahmed Noman al-Hakimi, Nuh Y. Elamin, L.A.M. Al-sagheer, G.M. Asnag, Doaa Abdelhameed, Design of PEO/HPMC/CMC-CuO nanocomposite electrolytes for high-performance dielectric capacitors , المستودع الرقمي الجامعة الإماراتية الدولية: 2025
M.A. Morsi , G.M. Asnag, Awatef S. Assran , Reem Alwafi, A.E. Tarabiah, Naif Ahmed Alshehri, Ahmed Noman al-Hakimi, Abdu Saeed, Reinforced PEO/Cs polymers blend with Al2O3/TiO2 hybrid nanofillers: Nanocomposites for optoelectronics and energy storage , المستودع الرقمي الجامعة الإماراتية الدولية: 2024
Abdu Saeed, Essam Banoqitah , J.A. Mohammed Abdulwahed, Fawziah Alajmi, Aysh Y. Madkhli, F.A. Al-Marhaby, Kholoud Albaidani, Merfat Algethami, Awatef S. Assran, Reem Alwafi, G.M. Asnag, A comprehensive study on structural, optical, electrical, and dielectric properties of PVA-PVP/Ag-TiO2 nanocomposites for dielectric capacitor applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2024
Ali A Al-Muntaser, Eman Alzahrani, FA Al-Marhaby, Zainab M Alharbi, Turki Alkathiri, Sultan Albarakati, Saleh A Alghamdi, Ghaleb M Asnag, Abdu Saeed, Enhanced linear and nonlinear optical properties of poly(vinyl alcohol) films with manganese(III) tetraphenylporphyrin chloride additive for optoelectronic applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2025
M.J. Tommalieh, Maha Aiiad Alenizi, S.K. Alghamdi, N.T. El-Shamy, G.M. Asnag, M.A. Morsi, M.A. Ahlam, Hassan G. El Gohary, TiO₂-reinforced PVA/HPMC/CMC ternary bio-blend electrolytes for advanced energy storage devices , المستودع الرقمي الجامعة الإماراتية الدولية: 2025
Abdu Saeed, G. M. Asnag, Reem Alwafi, Fawziah Alajmi, Norah T. S. Albogamy, Abeer M. Alosaimi, Noorah Ahmed Al-Ahmadi, Aeshah Salem, Enhanced the structural, optical, electrical, and dielectric properties of PEO/CMC blend via TiO2 and ZnO nanoceramics: nanocomposites for capacitor applications , المستودع الرقمي الجامعة الإماراتية الدولية: 2025

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