| 61 |
Metal nanoparticles in ionic liquid-cosolvent biphasic systems as active catalysts for acetylene hydrochlorination
Yang LF, Yang QW, Hu JY, Bao ZB, Su BG, Zhang ZG, Ren QL, Xing HB
AIChE Journal, 64(7), 2536, 2018 |
| 62 |
In Silico Screening of MOFs with Open Copper Sites for C2H2/CO2 Separation
Zhang C, Wang L, Maurin G, Yang QY
AIChE Journal, 64(11), 4089, 2018 |
| 63 |
Variability of particle configurations achievable by 2-nozzle flame syntheses of the Au-Pd-TiO2 system and their catalytic behaviors in the selective hydrogenation of acetylene
Pongthawornsakun B, Mekasuwandumrong O, Aires FJCS, Buchel R, Baiker A, Pratsinis SE, Panpranot J
Applied Catalysis A: General, 549, 1, 2018 |
| 64 |
A novel S, N dual doped carbon catalyst for acetylene hydrochlorination
Wang J, Zhao F, Zhang CL, Kang LH, Zhu MY
Applied Catalysis A: General, 549, 68, 2018 |
| 65 |
Highly selectivity catalytic hydrogenation of acetylene on Al2O3 supported palladium-imidazolium based ionic liquid phase
Xu YQ, Jiang YS, Xu H, Wang QT, Huang WM, He HH, Zhai YY, Di SX, Guo LL, Xu XL, Zhao J, Feng F, Zhang QF, Li XN
Applied Catalysis A: General, 567, 12, 2018 |
| 66 |
Effect of the operating parameters on the simulation of acetylene hydrogenation reactor with catalyst deactivation
Samavati M, Ebrahim HA, Dorj Y
Applied Catalysis A: General, 567, 45, 2018 |
| 67 |
Hydrochlorination of acetylene catalyzed by activated carbon supported highly dispersed gold nanoparticles
Zhang CM, Zhang HY, Man BC, Li X, Dai H, Zhang JL
Applied Catalysis A: General, 566, 15, 2018 |
| 68 |
Effect of carbon defects on the nitrogen-doped carbon catalytic performance for acetylene hydrochlorination
Wang J, Gong WQ, Zhu MY, Dai B
Applied Catalysis A: General, 564, 72, 2018 |
| 69 |
A study on structural features of bimetallic Pd-M/C (M: Zn, Ga, Ag) catalysts for liquid-phase selective hydrogenation of acetylene
Glyzdova DV, Vedyagin AA, Tsapina AM, Kaichev VV, Trigub AL, Trenikhin MV, Shlyapin DA, Tsyrulnikov PG, Lavrenov AV
Applied Catalysis A: General, 563, 18, 2018 |
| 70 |
Fe-HFER and Cu-HFER as catalysts for the NOx SCR using acetylene as a reducing agent: Reaction mechanism revealed by FT-IR operando study coupled with (NO)-N-15 isotopic labelling
Castellanos I, Marie O
Applied Catalysis B: Environmental, 223, 143, 2018 |
