1 |
Effects of the Composition and Molecular Structure of Heavy Oil Asphaltenes on Their Reactivity in Thermal Decomposition Processes Korneev DS, Pevneva GS, Voronetskaya NG Petroleum Chemistry, 61(2), 152, 2021 |
2 |
A highly active Ni-based anode material for urea electrocatalysis by a modified sol-gel method Tran MH, Park BJ, Yoon HH Journal of Colloid and Interface Science, 578, 641, 2020 |
3 |
Preparation of Petrochemical Feedstock from Rubber Wastes by Thermal Solvolysis Yusevich AI, Malevich NN, Genarova TN Petroleum Chemistry, 60(7), 834, 2020 |
4 |
Thermolysis of Asphaltenes of Timan-Pechora Heavy Oils Burdel'naya NS, Bushnev DA, Golubev EA, Derevesnikova AA, Radaev VA Petroleum Chemistry, 60(6), 699, 2020 |
5 |
Thermal Transformations of Petroleum Residue Components in the Presence of Power-Plant Flyash Ferrospheres and Sunflower Oil Kopytov MA, Boyar SV, Mozhaiskaya MV Petroleum Chemistry, 60(3), 348, 2020 |
6 |
Features of a Three-Phase One-Step Synthesis of Alcohols from CO and H(2)in the Presence of Cu-Co-Containing Slurries Chudakova MV, Kulikova MV, Ivantsov MI, Bondarenko GN, Maximov AL Petroleum Chemistry, 60(10), 1129, 2020 |
7 |
Solar binary chemical depolymerization of lignin for efficient production of small molecules and hydrogen Wang JQ, Yan C, Zhu LY, Gu D, Zhang D, Wang HM, Wang BH Bioresource Technology, 272, 249, 2019 |
8 |
Facile synthesis of carbon encapsulated RuO2 nanorods for supercapacitor and electrocatalytic hydrogen evolution reaction Edison TNJI, Atchudan R, Lee YR International Journal of Hydrogen Energy, 44(4), 2323, 2019 |
9 |
Thermolysis reactor scale-up for pilot scale Cu-Cl hybrid hydrogen production Wajda T, Gabriel K International Journal of Hydrogen Energy, 44(20), 9779, 2019 |
10 |
Discrepancy in the thermal decomposition/dehydrogenation of ammonia borane screened by thermogravimetric analysis Petit JF, Demirci UB International Journal of Hydrogen Energy, 44(27), 14201, 2019 |