Research output: Contribution to journal › Article › peer-review
Turbostratic carbon nanofibers produced from C2HCl3 over self-dispersing Ni-catalyst doped with W and Mo. / Potylitsyna, Arina R.; Bauman, Yury I.; Ayupov, Artem B. et al.
In: Diamond and Related Materials, Vol. 148, 111416, 16.07.2024.Research output: Contribution to journal › Article › peer-review
}
TY - JOUR
T1 - Turbostratic carbon nanofibers produced from C2HCl3 over self-dispersing Ni-catalyst doped with W and Mo
AU - Potylitsyna, Arina R.
AU - Bauman, Yury I.
AU - Ayupov, Artem B.
AU - Plyusnin, Pavel E.
AU - Shubin, Yury V.
AU - Stoyanovskii, Vladimir O.
AU - Vedyagin, Aleksey A.
AU - Mel'gunov, Maksim S.
AU - Korenev, Sergey V.
AU - Mishakov, Ilya V.
PY - 2024/7/16
Y1 - 2024/7/16
N2 - In this research, a self-dispersing 92Ni-4Mo-4W catalyst showing high productivity towards the H2-assisted synthesis of turbostratic carbon nanofibers was proposed. The effect of reaction temperature on the efficiency of 92Ni-4Mo-4W alloy in the decomposition of trichloroethylene was studied. It was found that in the temperature range of 580–620 °C, the most rapid destruction of the initial alloy followed by the growth of carbon material is realized. This is confirmed by the minimum induction period (9–11 min) and the maximum carbon yield (95–107 g/gcat). As revealed, the catalytically active particles of submicron size contain uniformly distributed Ni, Mo, and W. It is demonstrated that the decomposition of trichloroethylene over the 92Ni-4Mo-4W catalyst results in the formation of a turbostratic carbon material with a segmented structure, containing a minimum quantity of amorphous carbon and possessing high textural characteristics (specific surface area of 330–410 m2/g; pore volume of 0.48–0.58 cm3/g).
AB - In this research, a self-dispersing 92Ni-4Mo-4W catalyst showing high productivity towards the H2-assisted synthesis of turbostratic carbon nanofibers was proposed. The effect of reaction temperature on the efficiency of 92Ni-4Mo-4W alloy in the decomposition of trichloroethylene was studied. It was found that in the temperature range of 580–620 °C, the most rapid destruction of the initial alloy followed by the growth of carbon material is realized. This is confirmed by the minimum induction period (9–11 min) and the maximum carbon yield (95–107 g/gcat). As revealed, the catalytically active particles of submicron size contain uniformly distributed Ni, Mo, and W. It is demonstrated that the decomposition of trichloroethylene over the 92Ni-4Mo-4W catalyst results in the formation of a turbostratic carbon material with a segmented structure, containing a minimum quantity of amorphous carbon and possessing high textural characteristics (specific surface area of 330–410 m2/g; pore volume of 0.48–0.58 cm3/g).
KW - Carbon nanofibers
KW - Catalytic chemical vapor deposition
KW - High carbon yield
KW - Trimetallic Ni-Mo-W alloy
KW - Turbostratic structure
UR - https://www.mendeley.com/catalogue/16255fbf-44a5-37f0-9687-d7e9e59e3866/
U2 - 10.1016/j.diamond.2024.111416
DO - 10.1016/j.diamond.2024.111416
M3 - статья
VL - 148
JO - Diamond and Related Materials
JF - Diamond and Related Materials
SN - 0925-9635
M1 - 111416
ER -
ID: 60795550