Literature review on policies to mitigate GHG emissions for cement and concrete P Busch, A Kendall, CW Murphy, SA Miller Resources, Conservation and Recycling 182, 106278, 2022 | 71 | 2022 |
A systematic review of life cycle greenhouse gas intensity values for hydrogen production pathways P Busch, A Kendall, T Lipman Renewable and Sustainable Energy Reviews 184, 113588, 2023 | 6 | 2023 |
Secuestro de carbono en el suelo: cuantificación del potencial de captura en el suelo de un bosque patagónico P Busch, A Carkovic, V González, C Bonilla Investigaciones PUCP, 42-47, 2017 | 1 | 2017 |
Life cycle assessment, quo vadis? Supporting or deterring greenwashing? A survey of practitioners M Brandão, P Busch, A Kendall Environmental Science: Advances 3 (2), 266-273, 2024 | | 2024 |
Chronic exposure to fine particles (PM2. 5) and mortality: Evidence from Chile P Busch, LA Cifuentes, C Cabrera Environmental Epidemiology 7 (4), e253, 2023 | | 2023 |
Implications of Global Electric Vehicle Adoption Targets for the Light Duty Auto Industry in G Tal, F Pares, P Busch | | 2023 |
Implications of Global Electric Vehicle Adoption Targets for the Light Duty Auto Industry in Mexico G Tal, F Pares, P Busch, M Chandra | | 2023 |
Chronic exposure to fine particles (PM P Busch, LA Cifuentes, C Cabrera | | 2023 |
Hydrogen Can Have a Much Lower Carbon Intensity than Fossil Fuels But This Largely Depends on How It Is Produced and Distributed T Lipman, A Horvath, S Collins, A Kendall, L Fulton, P Busch | | 2022 |
Earthquake-Induced Liquefaction Manifestation Multiclass Prediction Utilizing Random Forests for the Canterbury Earthquake Sequence K Cheng, P Busch, K Ziotopoulou Geo-Congress 2024, 222-231, 0 | | |
EV Supply Modelling: Implications of Global EV Adoption Targets for Mexico’s Light-Duty Auto Industry F Pares, P Busch, M Chandra, G Tal | | |