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Synthesis the new nanostructure Ti0.7Ir0.3O2 via low temperature hydrothermal process / Tai Thien Huynh, At Van Nguyen, Hau Quoc Pham, Long Giang Bach, Van Thi Thanh Ho // Applied Mechanics and Materials. - . - Vol. 876 (2018), P.64-70. - ISSN:

Switzerland : Trans Tech Publications, 2018
7 p.
Ký hiệu phân loại (DDC): 542
Noncarbon materials were recognized as the catalyst support to increase the durability of Proton Exchange Membrane Fuel Cells (PEMFC). One of the most noncarbon materials studied to be an emerging candidate for Pt nanoparticles (Pt NPs) support on the cathode side of PEMFC was M doped-TiO2 due to the highly stable structure of TiO2 and the good conductivity of M-doped TiO2. In this paper, the novel nanostructure Ti0.7Ir0.3O2 was prepared for the first time via low temperature hydrothermal process. The synthesis process for the new nanostructure Ti0.7Ir0.3O2 was studied in detail in this work. The impact of hydrothermal temperature as well as the reaction time on the dominant phase formation is extensively investigated in this work. We found that the Ti0.7Ir0.3O2 nanoparticles exist in both rutile and anatase phase. We found that the Ti0.7Ir0.3O2 nanoparticles with an irregular spherical shape with particle size of approximately 20-30nm with high crystallinity. In addition, we also found that the optimal condition to synthesize the Ti0.7Ir0.3O2 NPs is obtained at 210oC and 10 hours. The result not only introduces a promising catalyst support Ti0.7Ir0.3O2 for much needed fuel cells, but it also open a new material type of Ir doped TiO2.
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Synthesis the new nanostructure Ti0.7W0.3O2 via low temperature solvothermal process / Tai Thien Huynh, Hau Quoc Pham, At Van Nguyen, Long Giang Bach, Son Truong Nguyen, Van Thi Thanh Ho // Applied Mechanics and Materials. - . - Vol. 876 (2018), P.84-90. - ISSN:

Switzerland : Trans Tech Publications, 2018
7 p.
Ký hiệu phân loại (DDC): 542
The materials currently used in proton-exchange membrane fuel cells (PEMFCs) require complex control of operating conditions to make them sufficiently durable to permit commercial deployment. One of the major materials challenges to allow simplification of fuel cell operating strategies is the discovery of catalyst supports that are much more stable to oxidative decomposition than currently used carbon blacks. Here, we report the synthesis and characterization of advanced nanostructure Ti0.7W0.3O2 prepared via a low-temperature solvothermal process without using any surfactants or stabilizers. A promising doped metal oxide is a candidate for such a durable catalyst support. The synthesized nanoparticles were characterized by XRD, TEM measurements. Results show that Ti0.7W0.3O2 exists in a single-phase solid solution with anatase phase of TiO2. Interestingly, the average particles size approximately 5 nm that could be promised to have a large specific surface area, which is an extremely important factor for promising catalyst support. Moreover, Ti0.7W0.3O2 synthesized at 200 oC for 6 hours obtains the smaller particles size without particles agglomeration compared to previous researches. These results open a new approach for synthesis nanostructure Ti0.7W0.3O2 by a solvothermal process for further application as catalyst support in PEMFCs.
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