TY - JOUR

T1 - Mesoporous metal oxide via nanocasting

T2 - Recent advances on types of templates, properties, and catalytic activities

AU - Thomas, Samson

AU - Umar, Aminah

AU - Yunarti, Rika Tri

AU - Bakri, Ridla

AU - Putra, Budi Riza

AU - Wahyuni, Wulan Tri

AU - Arifutzzaman, A.

AU - Aroua, Mohamed Kheireddine

AU - Khalil, Munawar

PY - 2024/8/26

Y1 - 2024/8/26

N2 - The burgeoning interest in mesoporous metal oxides is driven by their unique morphological, structural, electronic, and catalytic characteristics. Incorporating porosity features enhances the surface area-to-volume ratio, bolstering their efficacy in many applications. It is imperative for material scientists to meticulously engineer the porosity of these metal oxides to optimize their performance in practical applications. Among the myriad synthesis techniques, nanocasting with hard and soft templates is particularly esteemed for its precision in tailoring pore size and distribution. This review delves into the conventional pathways for fabricating various mesoporous metal oxides, which are notably challenging to synthesize due to the intricate conditions required. We examine a spectrum of templates, including but not limited to porous carbon, mesoporous silica, zeolites, surfactants, and polymers. Additionally, several physicochemical properties of various mesoporous metal oxides were explored, including their surface properties, electrical and thermal conductivity, magnetism, and catalytic performance in oxidation and reduction reactions. Finally, the paper culminates by addressing the existing challenges and elucidating prospective opportunities in the field.

AB - The burgeoning interest in mesoporous metal oxides is driven by their unique morphological, structural, electronic, and catalytic characteristics. Incorporating porosity features enhances the surface area-to-volume ratio, bolstering their efficacy in many applications. It is imperative for material scientists to meticulously engineer the porosity of these metal oxides to optimize their performance in practical applications. Among the myriad synthesis techniques, nanocasting with hard and soft templates is particularly esteemed for its precision in tailoring pore size and distribution. This review delves into the conventional pathways for fabricating various mesoporous metal oxides, which are notably challenging to synthesize due to the intricate conditions required. We examine a spectrum of templates, including but not limited to porous carbon, mesoporous silica, zeolites, surfactants, and polymers. Additionally, several physicochemical properties of various mesoporous metal oxides were explored, including their surface properties, electrical and thermal conductivity, magnetism, and catalytic performance in oxidation and reduction reactions. Finally, the paper culminates by addressing the existing challenges and elucidating prospective opportunities in the field.

KW - Catalysis

KW - Mesoporous metal oxides

KW - Nanocasting

KW - Surface area

KW - Templates

U2 - 10.1016/j.mtcomm.2024.110152

DO - 10.1016/j.mtcomm.2024.110152

M3 - Review article

VL - 40

JO - MATERIALS TODAY COMMUNICATIONS

JF - MATERIALS TODAY COMMUNICATIONS

SN - 2352-4928

M1 - 110152

ER -