| 54 |
CH4 |
Food waste co-digestion in G… |
Stephanie Lansing |
Resources, Conservation and Recycling |
2019 |
| 53 |
N2O |
Catalytic reduction of nitro… |
Mehdi D. Esrafili |
Chemical Physics Letters |
2019 |
| 52 |
CH4+N2O |
Greenhouse gas emission by c… |
Wanqiu Hu |
Journal of Cleaner Production |
2019 |
| 51 |
CH4 |
Life cycle assessment of the… |
E.Abdelsalam |
Renewable Energy |
2019 |
| 50 |
F-gas |
Comparative study on energy … |
Zhaohua Li |
Energy and Buildings |
2019 |
| 49 |
N2O |
Effects of Cu oxidation stat… |
Iwamoto |
Journal of Physics and Chemistry of Solids |
2019 |
| 48 |
N2O |
Pathways for N2O Formation/R… |
R. Matarrese |
Topics in Catalysis |
2019 |
| 47 |
CH4 |
Anaerobic oxidation of metha… |
Lin Li |
Journal of Environmental Sciences |
2019 |
| 46 |
N2O |
Structural stability of meta… |
Edyta Tabor |
Microporous and Mesoporous Materials |
2019 |
| 45 |
N2O |
The Role of Atomic Oxygen an… |
Mohammad Zangouei |
Plasma Chemistry and Plasma Processing |
2019 |
| 44 |
N2O |
Role of rubidium promotion o… |
Bahaa M. Abu-Zied |
Applied Surface Science |
2019 |
| 43 |
N2O |
N2O reduction over a porous … |
Mehdi D. Esrafili |
Chemical Physics Letters |
2019 |
| 42 |
N2O |
Influence of co‑fed gases (O… |
Nayara F. Biturini |
Reaction Kinetics, Mechanisms and Catalysis |
2019 |
| 41 |
N2O |
Effect of Formic Acid Treatm… |
Yongzhao Wang |
Catalysis Letters |
2019 |
| 40 |
N2O |
Direct N2O decomposition ove… |
Jong Bin Lim |
Applied Catalysis B: Environmental |
2019 |
| 39 |
N2O |
Decomposition of N2O at Low … |
Abrar Inayat |
Environmental Progress & Sustainable Energy |
2019 |
| 38 |
N2O |
Clathrate nanocage reactor f… |
Yun-Ho Ahn |
Chemical Engineering Journal |
2019 |
| 37 |
N2O |
Atomic-scale insights into z… |
Guangzhi He |
Science of the Total Environment |
2019 |
| 36 |
F-gas |
Experimental Evaluation on L… |
Shikuan Wang |
Journal of Thermal Science and Engineering Applications |
2019 |
| 35 |
F-gas |
Effect of Mg/Al2O3 and Calci… |
Caroline Mercy Andrew Swamidoss |
Catalysts |
2019 |
