Néstor Y. Rojas R. (
Néstor Y. Rojas R. (
Associate Professor at Universidad Nacional de Colombia, Bogotá
Verified email at
Cited by
Cited by
A global observational analysis to understand changes in air quality during exceptionally low anthropogenic emission conditions
RS Sokhi, V Singh, X Querol, S Finardi, AC Targino, M de Fatima Andrade, ...
Environment international 157, 106818, 2021
Aire y problemas ambientales de Bogotá
NY Rojas
Friedrich-Ebert-Stiftung en Colombia, 2007
Chemical composition and source apportionment of PM10 at an urban background site in a high–altitude Latin American megacity (Bogota, Colombia)
O Ramírez, AMS De La Campa, F Amato, RA Catacolí, NY Rojas, ...
Environmental Pollution 233, 142-155, 2018
Evaluation of vehicle emission inventories for carbon monoxide and nitrogen oxides for Bogotá, Buenos Aires, Santiago, and São Paulo
L Gallardo, J Escribano, L Dawidowski, N Rojas, M de Fátima Andrade, ...
Atmospheric Environment 47, 12-19, 2012
Air quality variations in Northern South America during the COVID-19 lockdown
JF Mendez-Espinosa, NY Rojas, J Vargas, JE Pachón, LC Belalcazar, ...
Science of the Total Environment 749, 141621, 2020
PM10 characterization and source apportionment at two residential areas in Bogota
FA Vargas, NY Rojas, JE Pachon, AG Russell
Atmospheric Pollution Research 3 (1), 72-80, 2012
Relative impact of on-road vehicular and point-source industrial emissions of air pollutants in a medium-sized Andean city
CM González, CD Gómez, NY Rojas, H Acevedo, BH Aristizábal
Atmospheric environment 152, 279-289, 2017
Influence of precipitation scavenging on the PM2.5/PM10 ratio at the Kennedy locality of Bogotá, Colombia
LC Blanco-Becerra, GRA Inés, NY Rojas-Roa
Revista Facultad de Ingeniería, Universidad de Antioquia 76, 58-65, 2015
On the road to net zero-emission cement: Integrated assessment of mineral carbonation of cement kiln dust
J Pedraza, A Zimmermann, J Tobon, R Schomäcker, N Rojas
Chemical Engineering Journal 408, 127346, 2021
Evaluation of anthropogenic air pollutant emission inventories for South America at national and city scale
N Huneeus, HD van Der Gon, P Castesana, C Menares, C Granier, ...
Atmospheric Environment 235, 117606, 2020
Application of WRF-Chem model to simulate PM10 concentration over Bogota
A Kumar, R Jime, LC Belalca
Aerosol and Air Quality Research 16 (5), 1206-1221, 2016
Revisión de las emisiones de material particulado por la cumbustión de diesel y biodiesel
NY Rojas
Revista de ingeniería, 58-68, 2004
Occupational exposure to air pollutants: particulate matter and respiratory symptoms affecting traffic-police in Bogotá
JA Estévez-García, NY Rojas-Roa, AI Rodríguez-Pulido
Revista de salud publica 15, 870-885, 2013
High-resolution air quality modeling in a medium-sized city in the tropical Andes: Assessment of local and global emissions in understanding ozone and PM10 dynamics
CM González, RY Ynoue, A Vara-Vela, NY Rojas, BH Aristizábal
Atmospheric Pollution Research 9 (5), 934-948, 2018
GAPS-megacities: A new global platform for investigating persistent organic pollutants and chemicals of emerging concern in urban air
A Saini, T Harner, S Chinnadhurai, JK Schuster, A Yates, A Sweetman, ...
Environmental Pollution 267, 115416, 2020
Relación entre PM2. 5 y PM10 en la ciudad de Bogotá
N Rojas, B Galvis
Revista de ingeniería, 54-60, 2005
Estimación de los beneficios económicos en salud asociados a la reducción de PM10 en Bogotá
EY Ortiz-Durán, NY Rojas-Roa
Revista de Salud Pública 15, 90-102, 2013
Urban air pollution
H Jorquera, LD Montoya, NY Rojas
Urban Climates in Latin America, 137-165, 2019
Particulate matter exposure of bicycle path users in a high-altitude city
OA Fajardo, NY Rojas
Atmospheric environment 46, 675-679, 2012
Air pollution emission effects of changes in transport supply: the case of Bogotá, Colombia
SC Mangones, P Jaramillo, NY Rojas, P Fischbeck
Environmental Science and Pollution Research 27, 35971-35978, 2020
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