Posted on 29/08/202429/08/2024 by ScienceFather 59 / 100 Powered by Rank Math SEO SEO Score Dr. Rawdah Whba | Polymer Electrolytes | Best Researcher Award Assistant Professor at Taiz University, Yemen Dr. Rawdah Abduh Ghaleb Whba is an accomplished researcher and educator in polymer and physical chemistry, currently serving as an Assistant Professor at Taiz University, Yemen, while also undertaking postdoctoral research at Inonu University, Turkey. Her expertise lies in polymer electrolytes for energy storage, focusing on synthesizing and characterizing advanced materials for lithium-ion and sodium-ion batteries, as well as supercapacitors. Dr. Whba holds a Ph.D. and MSc from Universiti Kebangsaan Malaysia, where she excelled academically and contributed significantly as a research assistant. She has earned several accolades, including national recognition in Yemen and scholarships from the Yemeni government and Islamic Development Bank. Her professional memberships include the American Chemical Society and the International Society of Electrochemistry. Dr. Whba’s work has been influential in advancing energy storage technologies, and she is an active reviewer for several scientific journals, reflecting her impact and dedication to her field. Profile Scopus Profile Google Scholar ORCID Profile Education Dr. Rawdah Abduh Ghaleb Whba has a distinguished educational background marked by academic excellence. She completed her first bachelor’s degree in Chemistry from the Faculty of Education at Taiz University, Yemen, in 2005, graduating with an impressive grade of 91.12%. She furthered her education with a second bachelor’s degree in Chemistry from the Faculty of Applied Sciences at Taiz University in 2008, achieving a remarkable grade of 93.18%. Recognized for her outstanding academic performance, Dr. Whba received two awards from the President of the Republic of Yemen and a diploma in English and computers from the National Organization for Community Development in 2007. She pursued her master’s degree in Chemistry at the School of Chemical Sciences and Food Technology, University Kebangsaan Malaysia (UKM), graduating with honors in 2017. Dr. Whba completed her PhD in Chemistry at UKM in 2022, further solidifying her expertise in polymer and physical chemistry. Professional Experience Dr. Rawdah Abduh Ghaleb Whba is an accomplished researcher and academic with extensive experience in chemistry and polymer science. She currently serves as an Assistant Professor in the Chemistry Department at the Faculty of Applied Sciences, Taiz University, Yemen, while also undertaking postdoctoral research at Inonu University, Turkey. Her professional journey includes a significant tenure as a Research Assistant at the University Kebangsaan Malaysia (UKM), where she worked from 2018 to 2021, focusing on polymer chemistry and energy storage technologies. Additionally, Dr. Whba has held various roles in academia, including lecturing at several universities in Yemen and contributing to departmental administration. Her experience spans industrial training, academic workshops, and significant roles in scientific committees, underscoring her expertise in polymer electrolytes, electrochemical devices, and energy storage systems. Dr. Whba’s diverse experience reflects her strong leadership, research proficiency, and commitment to advancing chemical sciences. Research Interest Dr. Rawdah Abduh Ghaleb Whba’s research interests are centered on polymer chemistry and physical chemistry, particularly focusing on polymer electrolytes for energy storage applications. Her work involves the synthesis and characterization of polymers and grafted polymers, with an emphasis on developing and optimizing polymer electrolytes for use in energy storage devices. This includes solid-state lithium-ion batteries, sodium-ion batteries, and supercapacitors. Dr. Whba’s research explores the preparation of thin-film membranes and electrodes, examining their physicochemical, thermomechanical, and electrochemical properties. Her current postdoctoral research at Inonu University involves high-performance full-cell production and performance analysis with pre-sodiumation processes in sodium-ion batteries. Her interdisciplinary approach combines advanced materials science with practical applications in energy storage, aiming to enhance the efficiency and performance of these technologies. Research Skills Dr. Rawdah Abduh Ghaleb Whba exhibits an impressive array of research skills in the field of polymer and physical chemistry. Her expertise encompasses the synthesis and characterization of polymers, including grafted and organic-inorganic hybrid materials. She is proficient in developing and analyzing polymer electrolytes, electrodes, and energy storage devices such as solid-state lithium-ion and sodium-ion batteries, as well as supercapacitors. Dr. Whba demonstrates advanced analytical skills with techniques including Fourier-transform infrared spectroscopy (FTIR), nuclear magnetic resonance (NMR), X-ray diffraction (XRD), and scanning electron microscopy (SEM). Her electrochemical skills are evidenced by her adept use of impedance spectroscopy, voltammetry, and chronoamperometry. Additionally, she is skilled in the application of various software for data analysis, such as VersaStudio and Zview, enhancing her research capabilities in fabricating and testing energy storage devices. Her extensive training and professional development further reflect her commitment to cutting-edge research in her field. Award and Recognition Dr. Rawdah Abduh Ghaleb Whba has garnered notable accolades throughout her distinguished career. Recognized for her exceptional academic performance, she was honored with two prestigious awards from the President of the Republic of Yemen during her undergraduate studies for her outstanding academic achievements. In addition to these early honors, Dr. Whba received a diploma in English and computer studies from the National Organization for Community Development (NODS) in Yemen. Her excellence continued during her postgraduate studies at the University Kebangsaan Malaysia (UKM), where she achieved first-class honors in both her Master’s and PhD programs. Her contributions to the field of polymer chemistry and electrochemistry have been widely acknowledged through various distinctions and appreciation certificates from her academic and research institutions. Dr. Whba’s dedication and excellence are further underscored by her ongoing involvement in significant research projects and professional societies. Conclusion Dr. Rawdah Abduh Ghaleb Whba is a highly qualified candidate for the Research for Best Researcher Award. Her extensive academic and research background, combined with her dedication and significant contributions to the field of polymer chemistry and energy storage, position her as a strong contender. Her strengths lie in her robust academic record, diverse research experience, and active involvement in the scientific community. By addressing areas such as expanding collaboration, enhancing the visibility of her work, and focusing on practical applications, she could further amplify her impact in the field. Publication Top Notes “Influence of binary lithium salts on 49% poly (methyl methacrylate) grafted natural rubber based solid polymer electrolytes” Authors: R.A.G. Whba, L. TianKhoon, M.S. Su’ait, M.Y.A. Rahman Year: 2020 Journal: Arabian Journal of Chemistry Volume: 13(1) Pages: 3351-3361 Citations: 38 “Free-radical photopolymerization of acrylonitrile grafted onto epoxidized natural rubber” Authors: R. Whba, M.S. Su’ait, L. TianKhoon, S. Ibrahim, N.S. Mohamed, A. Ahmad Year: 2021 Journal: Polymers Volume: 13(4) Article: 660 Citations: 21 “In-situ UV cured acrylonitrile grafted epoxidized natural rubber (ACN-g-ENR)–LiTFSI solid polymer electrolytes for lithium-ion rechargeable batteries” Authors: R. Whba, M.S. Su’ait, L. TianKhoon, S. Ibrahim, N.S. Mohamed, A. Ahmad Year: 2021 Journal: Reactive and Functional Polymers Volume: 164 Article: 104938 Citations: 16 “Epoxidized natural rubber‐graft‐acrylonitrile (ENR‐g‐ACN)‐based solid polymer electrolytes for energy storage application” Authors: R. Whba, M.S. Su’ait, S. Ibrahim, A. Ahmad Year: 2023 Journal: Polymer International Volume: 72(12) Pages: 1070-1078 Citations: 3 “Research progress on polyacrylonitrile-based polymer electrolytes for electrochemical devices: Insight into electrochemical performance” Authors: Rawdah Whba, Mohd Sukor Su’ait, Fathyah Whba, Azizan Ahmad Year: 2024 Journal: Journal of Power Sources Volume: 606 Article: 234539 Citations: 2 “Natural rubber-based polymer electrolytes for electrochemical devices: Modification, challenges, advances, and perspectives” Authors: R. Whba, M.S. Su’ait, S. Sahinbay, F. Whba, A. Ahmad Year: 2024 Journal: Journal of Energy Storage Volume: 83 Article: 110593 Citations: 2 “Effect of gamma irradiation on the size of cellulose nanocrystals with polyethylene glycol and sodium hydroxide/Gd2O3 nanocomposite as contrast agent in magnetic resonance imaging” Authors: F. Whba, F. Mohamed, M.I. Idris, R. Whba, N.M. Noor Year: 2023 Journal: Nuclear Engineering and Technology Volume: Not specified Citations: 1 “Exploring the Impact of Lanthanum on Sodium Manganese Oxide Cathodes: Insight into Electrochemical Performance” Authors: R. Whba, S. Altundag, M.G. Aydin, B. Kalyoncuoglu, M. Ozgul, T. Depci, et al. Year: 2024 Journal: Energy Technology Article: 2400824 “Intrinsic challenges and strategic approaches for enhancing the potential of natural rubber and its derivatives: A review” Authors: R. Whba, M.S. Su’ait, F. Whba, S. Sahinbay, S. Altin, A. Ahmad Year: 2024 Journal: International Journal of Biological Macromolecules Article: 133796 “Synergistic effects of binary lithium salts on ion transport and dielectric relaxation in poly(methyl methacrylate) grafted natural rubber solid polymer electrolytes” Authors: R. Whba, M.S. Su’ait, K.L. Chai, A. Ahmad Year: 2024 Journal: Solid State Ionics Volume: 414 Article: 116634 Rawdah Whba | Polymer Electrolytes | Best Researcher Award
Dr. Rawdah Abduh Ghaleb Whba is an accomplished researcher and educator in polymer and physical chemistry, currently serving as an Assistant Professor at Taiz University, Yemen, while also undertaking postdoctoral research at Inonu University, Turkey. Her expertise lies in polymer electrolytes for energy storage, focusing on synthesizing and characterizing advanced materials for lithium-ion and sodium-ion batteries, as well as supercapacitors. Dr. Whba holds a Ph.D. and MSc from Universiti Kebangsaan Malaysia, where she excelled academically and contributed significantly as a research assistant. She has earned several accolades, including national recognition in Yemen and scholarships from the Yemeni government and Islamic Development Bank. Her professional memberships include the American Chemical Society and the International Society of Electrochemistry. Dr. Whba’s work has been influential in advancing energy storage technologies, and she is an active reviewer for several scientific journals, reflecting her impact and dedication to her field. Profile Scopus Profile Google Scholar ORCID Profile Education Dr. Rawdah Abduh Ghaleb Whba has a distinguished educational background marked by academic excellence. She completed her first bachelor’s degree in Chemistry from the Faculty of Education at Taiz University, Yemen, in 2005, graduating with an impressive grade of 91.12%. She furthered her education with a second bachelor’s degree in Chemistry from the Faculty of Applied Sciences at Taiz University in 2008, achieving a remarkable grade of 93.18%. Recognized for her outstanding academic performance, Dr. Whba received two awards from the President of the Republic of Yemen and a diploma in English and computers from the National Organization for Community Development in 2007. She pursued her master’s degree in Chemistry at the School of Chemical Sciences and Food Technology, University Kebangsaan Malaysia (UKM), graduating with honors in 2017. Dr. Whba completed her PhD in Chemistry at UKM in 2022, further solidifying her expertise in polymer and physical chemistry. Professional Experience Dr. Rawdah Abduh Ghaleb Whba is an accomplished researcher and academic with extensive experience in chemistry and polymer science. She currently serves as an Assistant Professor in the Chemistry Department at the Faculty of Applied Sciences, Taiz University, Yemen, while also undertaking postdoctoral research at Inonu University, Turkey. Her professional journey includes a significant tenure as a Research Assistant at the University Kebangsaan Malaysia (UKM), where she worked from 2018 to 2021, focusing on polymer chemistry and energy storage technologies. Additionally, Dr. Whba has held various roles in academia, including lecturing at several universities in Yemen and contributing to departmental administration. Her experience spans industrial training, academic workshops, and significant roles in scientific committees, underscoring her expertise in polymer electrolytes, electrochemical devices, and energy storage systems. Dr. Whba’s diverse experience reflects her strong leadership, research proficiency, and commitment to advancing chemical sciences. Research Interest Dr. Rawdah Abduh Ghaleb Whba’s research interests are centered on polymer chemistry and physical chemistry, particularly focusing on polymer electrolytes for energy storage applications. Her work involves the synthesis and characterization of polymers and grafted polymers, with an emphasis on developing and optimizing polymer electrolytes for use in energy storage devices. This includes solid-state lithium-ion batteries, sodium-ion batteries, and supercapacitors. Dr. Whba’s research explores the preparation of thin-film membranes and electrodes, examining their physicochemical, thermomechanical, and electrochemical properties. Her current postdoctoral research at Inonu University involves high-performance full-cell production and performance analysis with pre-sodiumation processes in sodium-ion batteries. Her interdisciplinary approach combines advanced materials science with practical applications in energy storage, aiming to enhance the efficiency and performance of these technologies. Research Skills Dr. Rawdah Abduh Ghaleb Whba exhibits an impressive array of research skills in the field of polymer and physical chemistry. Her expertise encompasses the synthesis and characterization of polymers, including grafted and organic-inorganic hybrid materials. She is proficient in developing and analyzing polymer electrolytes, electrodes, and energy storage devices such as solid-state lithium-ion and sodium-ion batteries, as well as supercapacitors. Dr. Whba demonstrates advanced analytical skills with techniques including Fourier-transform infrared spectroscopy (FTIR), nuclear magnetic resonance (NMR), X-ray diffraction (XRD), and scanning electron microscopy (SEM). Her electrochemical skills are evidenced by her adept use of impedance spectroscopy, voltammetry, and chronoamperometry. Additionally, she is skilled in the application of various software for data analysis, such as VersaStudio and Zview, enhancing her research capabilities in fabricating and testing energy storage devices. Her extensive training and professional development further reflect her commitment to cutting-edge research in her field. Award and Recognition Dr. Rawdah Abduh Ghaleb Whba has garnered notable accolades throughout her distinguished career. Recognized for her exceptional academic performance, she was honored with two prestigious awards from the President of the Republic of Yemen during her undergraduate studies for her outstanding academic achievements. In addition to these early honors, Dr. Whba received a diploma in English and computer studies from the National Organization for Community Development (NODS) in Yemen. Her excellence continued during her postgraduate studies at the University Kebangsaan Malaysia (UKM), where she achieved first-class honors in both her Master’s and PhD programs. Her contributions to the field of polymer chemistry and electrochemistry have been widely acknowledged through various distinctions and appreciation certificates from her academic and research institutions. Dr. Whba’s dedication and excellence are further underscored by her ongoing involvement in significant research projects and professional societies. Conclusion Dr. Rawdah Abduh Ghaleb Whba is a highly qualified candidate for the Research for Best Researcher Award. Her extensive academic and research background, combined with her dedication and significant contributions to the field of polymer chemistry and energy storage, position her as a strong contender. Her strengths lie in her robust academic record, diverse research experience, and active involvement in the scientific community. By addressing areas such as expanding collaboration, enhancing the visibility of her work, and focusing on practical applications, she could further amplify her impact in the field. Publication Top Notes “Influence of binary lithium salts on 49% poly (methyl methacrylate) grafted natural rubber based solid polymer electrolytes” Authors: R.A.G. Whba, L. TianKhoon, M.S. Su’ait, M.Y.A. Rahman Year: 2020 Journal: Arabian Journal of Chemistry Volume: 13(1) Pages: 3351-3361 Citations: 38 “Free-radical photopolymerization of acrylonitrile grafted onto epoxidized natural rubber” Authors: R. Whba, M.S. Su’ait, L. TianKhoon, S. Ibrahim, N.S. Mohamed, A. Ahmad Year: 2021 Journal: Polymers Volume: 13(4) Article: 660 Citations: 21 “In-situ UV cured acrylonitrile grafted epoxidized natural rubber (ACN-g-ENR)–LiTFSI solid polymer electrolytes for lithium-ion rechargeable batteries” Authors: R. Whba, M.S. Su’ait, L. TianKhoon, S. Ibrahim, N.S. Mohamed, A. Ahmad Year: 2021 Journal: Reactive and Functional Polymers Volume: 164 Article: 104938 Citations: 16 “Epoxidized natural rubber‐graft‐acrylonitrile (ENR‐g‐ACN)‐based solid polymer electrolytes for energy storage application” Authors: R. Whba, M.S. Su’ait, S. Ibrahim, A. Ahmad Year: 2023 Journal: Polymer International Volume: 72(12) Pages: 1070-1078 Citations: 3 “Research progress on polyacrylonitrile-based polymer electrolytes for electrochemical devices: Insight into electrochemical performance” Authors: Rawdah Whba, Mohd Sukor Su’ait, Fathyah Whba, Azizan Ahmad Year: 2024 Journal: Journal of Power Sources Volume: 606 Article: 234539 Citations: 2 “Natural rubber-based polymer electrolytes for electrochemical devices: Modification, challenges, advances, and perspectives” Authors: R. Whba, M.S. Su’ait, S. Sahinbay, F. Whba, A. Ahmad Year: 2024 Journal: Journal of Energy Storage Volume: 83 Article: 110593 Citations: 2 “Effect of gamma irradiation on the size of cellulose nanocrystals with polyethylene glycol and sodium hydroxide/Gd2O3 nanocomposite as contrast agent in magnetic resonance imaging” Authors: F. Whba, F. Mohamed, M.I. Idris, R. Whba, N.M. Noor Year: 2023 Journal: Nuclear Engineering and Technology Volume: Not specified Citations: 1 “Exploring the Impact of Lanthanum on Sodium Manganese Oxide Cathodes: Insight into Electrochemical Performance” Authors: R. Whba, S. Altundag, M.G. Aydin, B. Kalyoncuoglu, M. Ozgul, T. Depci, et al. Year: 2024 Journal: Energy Technology Article: 2400824 “Intrinsic challenges and strategic approaches for enhancing the potential of natural rubber and its derivatives: A review” Authors: R. Whba, M.S. Su’ait, F. Whba, S. Sahinbay, S. Altin, A. Ahmad Year: 2024 Journal: International Journal of Biological Macromolecules Article: 133796 “Synergistic effects of binary lithium salts on ion transport and dielectric relaxation in poly(methyl methacrylate) grafted natural rubber solid polymer electrolytes” Authors: R. Whba, M.S. Su’ait, K.L. Chai, A. Ahmad Year: 2024 Journal: Solid State Ionics Volume: 414 Article: 116634
Dr. Rawdah Abduh Ghaleb Whba is an accomplished researcher and academic with extensive experience in chemistry and polymer science. She currently serves as an Assistant Professor in the Chemistry Department at the Faculty of Applied Sciences, Taiz University, Yemen, while also undertaking postdoctoral research at Inonu University, Turkey. Her professional journey includes a significant tenure as a Research Assistant at the University Kebangsaan Malaysia (UKM), where she worked from 2018 to 2021, focusing on polymer chemistry and energy storage technologies. Additionally, Dr. Whba has held various roles in academia, including lecturing at several universities in Yemen and contributing to departmental administration. Her experience spans industrial training, academic workshops, and significant roles in scientific committees, underscoring her expertise in polymer electrolytes, electrochemical devices, and energy storage systems. Dr. Whba’s diverse experience reflects her strong leadership, research proficiency, and commitment to advancing chemical sciences. Research Interest Dr. Rawdah Abduh Ghaleb Whba’s research interests are centered on polymer chemistry and physical chemistry, particularly focusing on polymer electrolytes for energy storage applications. Her work involves the synthesis and characterization of polymers and grafted polymers, with an emphasis on developing and optimizing polymer electrolytes for use in energy storage devices. This includes solid-state lithium-ion batteries, sodium-ion batteries, and supercapacitors. Dr. Whba’s research explores the preparation of thin-film membranes and electrodes, examining their physicochemical, thermomechanical, and electrochemical properties. Her current postdoctoral research at Inonu University involves high-performance full-cell production and performance analysis with pre-sodiumation processes in sodium-ion batteries. Her interdisciplinary approach combines advanced materials science with practical applications in energy storage, aiming to enhance the efficiency and performance of these technologies. Research Skills Dr. Rawdah Abduh Ghaleb Whba exhibits an impressive array of research skills in the field of polymer and physical chemistry. Her expertise encompasses the synthesis and characterization of polymers, including grafted and organic-inorganic hybrid materials. She is proficient in developing and analyzing polymer electrolytes, electrodes, and energy storage devices such as solid-state lithium-ion and sodium-ion batteries, as well as supercapacitors. Dr. Whba demonstrates advanced analytical skills with techniques including Fourier-transform infrared spectroscopy (FTIR), nuclear magnetic resonance (NMR), X-ray diffraction (XRD), and scanning electron microscopy (SEM). Her electrochemical skills are evidenced by her adept use of impedance spectroscopy, voltammetry, and chronoamperometry. Additionally, she is skilled in the application of various software for data analysis, such as VersaStudio and Zview, enhancing her research capabilities in fabricating and testing energy storage devices. Her extensive training and professional development further reflect her commitment to cutting-edge research in her field. Award and Recognition Dr. Rawdah Abduh Ghaleb Whba has garnered notable accolades throughout her distinguished career. Recognized for her exceptional academic performance, she was honored with two prestigious awards from the President of the Republic of Yemen during her undergraduate studies for her outstanding academic achievements. In addition to these early honors, Dr. Whba received a diploma in English and computer studies from the National Organization for Community Development (NODS) in Yemen. Her excellence continued during her postgraduate studies at the University Kebangsaan Malaysia (UKM), where she achieved first-class honors in both her Master’s and PhD programs. Her contributions to the field of polymer chemistry and electrochemistry have been widely acknowledged through various distinctions and appreciation certificates from her academic and research institutions. Dr. Whba’s dedication and excellence are further underscored by her ongoing involvement in significant research projects and professional societies. Conclusion Dr. Rawdah Abduh Ghaleb Whba is a highly qualified candidate for the Research for Best Researcher Award. Her extensive academic and research background, combined with her dedication and significant contributions to the field of polymer chemistry and energy storage, position her as a strong contender. Her strengths lie in her robust academic record, diverse research experience, and active involvement in the scientific community. By addressing areas such as expanding collaboration, enhancing the visibility of her work, and focusing on practical applications, she could further amplify her impact in the field. Publication Top Notes “Influence of binary lithium salts on 49% poly (methyl methacrylate) grafted natural rubber based solid polymer electrolytes” Authors: R.A.G. Whba, L. TianKhoon, M.S. Su’ait, M.Y.A. Rahman Year: 2020 Journal: Arabian Journal of Chemistry Volume: 13(1) Pages: 3351-3361 Citations: 38 “Free-radical photopolymerization of acrylonitrile grafted onto epoxidized natural rubber” Authors: R. Whba, M.S. Su’ait, L. TianKhoon, S. Ibrahim, N.S. Mohamed, A. Ahmad Year: 2021 Journal: Polymers Volume: 13(4) Article: 660 Citations: 21 “In-situ UV cured acrylonitrile grafted epoxidized natural rubber (ACN-g-ENR)–LiTFSI solid polymer electrolytes for lithium-ion rechargeable batteries” Authors: R. Whba, M.S. Su’ait, L. TianKhoon, S. Ibrahim, N.S. Mohamed, A. Ahmad Year: 2021 Journal: Reactive and Functional Polymers Volume: 164 Article: 104938 Citations: 16 “Epoxidized natural rubber‐graft‐acrylonitrile (ENR‐g‐ACN)‐based solid polymer electrolytes for energy storage application” Authors: R. Whba, M.S. Su’ait, S. Ibrahim, A. Ahmad Year: 2023 Journal: Polymer International Volume: 72(12) Pages: 1070-1078 Citations: 3 “Research progress on polyacrylonitrile-based polymer electrolytes for electrochemical devices: Insight into electrochemical performance” Authors: Rawdah Whba, Mohd Sukor Su’ait, Fathyah Whba, Azizan Ahmad Year: 2024 Journal: Journal of Power Sources Volume: 606 Article: 234539 Citations: 2 “Natural rubber-based polymer electrolytes for electrochemical devices: Modification, challenges, advances, and perspectives” Authors: R. Whba, M.S. Su’ait, S. Sahinbay, F. Whba, A. Ahmad Year: 2024 Journal: Journal of Energy Storage Volume: 83 Article: 110593 Citations: 2 “Effect of gamma irradiation on the size of cellulose nanocrystals with polyethylene glycol and sodium hydroxide/Gd2O3 nanocomposite as contrast agent in magnetic resonance imaging” Authors: F. Whba, F. Mohamed, M.I. Idris, R. Whba, N.M. Noor Year: 2023 Journal: Nuclear Engineering and Technology Volume: Not specified Citations: 1 “Exploring the Impact of Lanthanum on Sodium Manganese Oxide Cathodes: Insight into Electrochemical Performance” Authors: R. Whba, S. Altundag, M.G. Aydin, B. Kalyoncuoglu, M. Ozgul, T. Depci, et al. Year: 2024 Journal: Energy Technology Article: 2400824 “Intrinsic challenges and strategic approaches for enhancing the potential of natural rubber and its derivatives: A review” Authors: R. Whba, M.S. Su’ait, F. Whba, S. Sahinbay, S. Altin, A. Ahmad Year: 2024 Journal: International Journal of Biological Macromolecules Article: 133796 “Synergistic effects of binary lithium salts on ion transport and dielectric relaxation in poly(methyl methacrylate) grafted natural rubber solid polymer electrolytes” Authors: R. Whba, M.S. Su’ait, K.L. Chai, A. Ahmad Year: 2024 Journal: Solid State Ionics Volume: 414 Article: 116634