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  1. An investigation of modified natural rubber-based (mg49) polymer electrolyte in dye-sensitized solar cells
    Shuhib Mamat, Mohamad Faizzi, Mohd Sukor Su’ait, Norasikin Ahmad Ludin, Kamaruzzaman Sopian, Nurul Akmaliah Dzulkurnain, et al.
    Sains Malaysiana, 2018;47:2667-2676.
    Kajian terhadap elektrolit polimer berasaskan 49% poli(metil metakrilat) cangkukan getah asli (MG49) dengan
    natrium iodida (NaI) dalam aplikasi sel suria terpeka pewarna (DSSC) telah dijalankan. Kesan kepekatan garam
    ke atas sifat elektrokimia, morfologi, kimia dan kehabluran MG49-NaI telah dianalisis menggunakan spektroskopi
    impedan elektrokimia (EIS), mikroskopi imbasan elektron (SEM), spektroskopi inframerah transformasi Fourier (FTIR)
    dan pembelauan sinar-X (XRD). Morfologi keratan rentas menunjukkan struktur membran berliang mikro dan homogen.
    Nilai kekonduksian ion tertinggi pada suhu bilik bagi membran elektrolit polimer MG49-NaI pada penambahan 30 %
    bt. garam NaI adalah 8.86 × 10-5 S cm-1. Analisis inframerah menunjukkan interaksi antara atom oksigen dengan ion
    natrium berlaku pada kumpulan berfungsi eter (C–O–C) dan karbonil (C=O). Sifat kehabluran MG49-NaI polimer
    elektrolit didapati berkurang dengan peningkatan kepekatan garam. Analisis kronoamperometri memberikan nilai
    nombor pindahan ion (tion) sebanyak 0.92 membuktikan elektrolit polimer MG49-NaI (30 % bt.) adalah pengkonduksi
    jenis ion. Ujian prestasi DSSC keadaan pepejal bagi FTO/TiO2
    -N719/MG49-NaI (30 % bt.)/I2
    /Pt sampel telah memberikan
    keputusan kecekapan setinggi 0.26% dengan prestasi fotovoltaik, Jsc, Voc dan ff masing-masing adalah 1.30 mA cm-2, 0.56
    V dan 34.91. Membran dalam keadaan pepejal-kuasi atau separa pepejal memberikan nilai kecekapan 3.48 % dengan
    nilai Voc = 0.75 V, Jsc = 12.71 mA cm-2 dan FF = 37.70.
  2. Fulltext Do non-coordinating polymers function as host materials for solid polymer electrolytes? The case of PVdF-HFP
    Hernández G, Lee TK, Erdélyi M, Brandell D, Mindemark J
    J Mater Chem A Mater, 2023 Jul 18;11(28):15329-15335.
    PMID: 37469657 DOI: 10.1039/d3ta01853a
    In the search for novel solid polymer electrolytes (SPEs), primarily targeting battery applications, a range of different polymers is currently being explored. In this context, the non-coordinating poly(vinylidene fluoride-co-hexafluoropropylene) (PVdF-HFP) polymer is a frequently utilized system. Considering that PVdF-HFP should be a poor solvent for cation salts, it is counterintuitive that this is a functional host material for SPEs. Here, we do an in-depth study of the salt dissolution properties and ionic conductivity of PVdF-HFP-based electrolytes, using two different fabrication methods and also employing a low-molecular-weight solvent analogue. It is seen that PVdF-HFP is remarkably poor as an SPE host, despite its comparatively high dielectric constant, and that the salt dissolution properties instead are controlled by fluorophilic interactions of the anion with the polymer.
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