TY  - JOUR
VL  - 52
JF  - International Journal of Hydrogen Energy
AV  - none
SP  - 268
EP  - 277
ID  - scholars19985
A1  - Miskan, S.N.
A1  - Setiabudi, H.D.
A1  - Bahari, M.B.
A1  - Vo, D.-V.N.
A1  - Abdullah, B.
A1  - Jalil, A.A.
A1  - Muhammad, S.A.F.S.
A1  - Ismail, S.B.
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85149630268&doi=10.1016%2fj.ijhydene.2022.12.201&partnerID=40&md5=eb57f75e11cf7fad17a6feea1f80c2ec
N1  - cited By 7
KW  - Catalyst activity; Catalytic reforming; Hydrogen production; Methane; Microemulsions; Nickel oxide; Physicochemical properties; Sintering; Zeolites
KW  -  Catalytic evaluation; CH 4; Dry reforming-of-methane; Fibrous; Metal-support interfaces; Micro-emulsion methods; Ni-based catalyst; Property; Synthesised; Zeolite-Y
KW  -  Nickel
TI  - Properties-activity correlation of Nickel supported on fibrous Zeolite-Y for dry reforming of methane
Y1  - 2024///
N2  - Nickel-supported Fibrous zeolite-Y (Ni/FHY) was successfully synthesized via the microemulsion method using HY as seed, followed by catalytic evaluation in dry reforming of methane (DRM) for hydrogen production. Ni/FHY possessed good NiO distribution, improved metal-support interface, and strong basicity, accredited to the fibrous structure of FHY. This unique morphology led to the enrichment in the amount of accessible Ni active sites, thus resulting in the superior activity of Ni/FHY (XCH4=95.1,XCO2=91.1,H2/CO=0.89) compared to Ni/HY (XCH4=92.7,XCO2=89.8,H2/CO=0.78). Meanwhile, the inferior performance of Ni/HY could be caused by the poor distribution of Ni with large particles, thus contributing to high carbon deposition and Ni sintering. The unique physicochemical properties and superior catalytic activity confirmed its viability in the DRM. © 2022 Hydrogen Energy Publications LLC
ER  -