Ismariza Ismail
Thumbnail Image
Preferred name
Ismariza Ismail
Official Name
Ismail, Ismariza
Alternative Name
Ismail, I.
Ismail, Ismariza
Main Affiliation
Scopus Author ID
57203013485
Researcher ID
GTH-8854-2022

Research Output

Filters

2
2
Reset filters

Settings
Now showing 1 - 2 of 2
  • Publication
    Biomass Waste Incorporation in La₀.₆Sr₀.₄Co₀.₂Fe₀.₈O₃-α˗Ba(Ce₀.₆Zr₀.₄)₀.₉Y₀.1O₃-δ composite cathode: effects on microstructural and physical properties
    (Chemistry Department, Universitas Gadjah Mada, 2025)
    Ismariza Ismail
    ;
    Nur Ashafieka Abdullah
    ;
    Norizah Abd Karim
    ;
    Shazlina Johari
    ;
    Muhammad Mahyiddin Ramli
    This study explores the incorporation of rice straw as a pore-forming agent in fabricating the Laâ‚€.₆Srâ‚€.â‚„Coâ‚€.â‚‚Feâ‚€.₈O₃-α˗Ba(Ceâ‚€.₆Zrâ‚€.â‚„)â‚€.₉Yâ‚€.1O₃–δ (LSCF-BCZY) composite cathode, focusing on its microstructural and physical properties. Conventional cathode materials often face challenges in balancing porosity and structural stability, with synthetic pore formers posing environmental and consistency concerns. To address these issues, rice straw was introduced into the cathode matrix at varying weight percentages, and the composites were sintered at 1000 Â°C. The addition of rice straw was evaluated using X-ray diffraction, scanning electron microscopy, and densitometry. The results revealed that increasing rice straw content significantly enhanced cathode porosity, rising from 5.53 to 27.74%, with a concomitant reduction in density from 1.33 to 0.93 g/cm3, while maintaining the crystalline stability of the LSCF-BCZY composite. Enhanced porosity suggests improved reactant diffusion to active sites, potentially benefiting the cell's performance in future energy applications. This work highlights the potential of agricultural waste as a sustainable and effective alternative to synthetic pore formers in cathode fabrication.
  • Publication
    Banana stem waste as a sustainable modifier for microstructure modification of protonic ceramic fuel cell cathode
    ( 2024-06)
    Ismariza Ismail
    ;
    Muhammad Mahyiddin Ramli
    ;
    Norizah Abd Karim
    ;
    Abdullah Abdul Samat
    This study investigates the feasibility of utilizing banana stem waste (BSW) as a pore former to modify the microstructure of the PCFC composite cathode. The microstructure of the La₀.₆Sr₀.₄Co₀.2Fe₀.8O3-α-Ba(Ce₀.₆Zr₀.₄)₀.₉Y₀.1O3-δ (LSCF-BCZY64) composite cathode was modified by varying the amounts of the incorporated banana stem waste. The samples underwent sintering at 1000 ˚C, and their microstructural and physical properties were analyzed using X-ray diffraction, scanning electron microscopy, and densimeter. The results indicate that the incorporation of BSW enhances the porosity of the cathode without significantly affecting its crystalline structure. As the amount of BSW increased from 10 to 40 wt.%, the porosity level increased from 7.0% to 32.7%, and the density of the samples decreased from 1.3 to 0.9 g/cm3, thereby supporting the results of the porosity analysis. Increased cathode porosity can enhance reactant accessibility to active sites, potentially resulting in improved cell performance and durability. Moreover, the utilization of BSW as a sustainable and cost-effective pore former aligns with the growing emphasis on environmentally friendly materials in energy applications.
      27  2