Marina Vance
- Associate Professor
- McLagan Family Fellow
- Associate Director for Graduate Education
Department: Mechanical Engineering
Education: B.S., M.S., Universidade Federal de Santa Catarina (2004, 2008), Ph.D. Virginia Tech (2012)
Teaching: MCEN 5228 Nanotechnology for Environmental Sustainability, MCEN 4045 and MCEN 4085 Mechanical Engineering Design Project 1 and 2, MCEN 4131 Air Pollution Control, MCEN 5161 Aerosols, MCEN 3047 Data Analysis and Experimental Methods
Research: Experimental measurements of aerosol physical characteristics to inform emissions, indoor and outdoor dynamics, and human exposure
Office: SEEC S286A
Honors and Distinctions:
- NSF CAREER Award, 2021
- EPA STAR Early Career Award, 2021
- McLagan Family Faculty Fellow, University of Colorado Boulder, 2019
- Outstanding Young Alumni, Via Department of Civil and Environmental Engineering, Virginia Tech, 2018
- Travel Award Winner. 1st Pan-American Congress of Nanotechnology, 2017
- US EPA Scientific and Technological Achievement Award (STAA), Level III, 2016
- Michigan University NextProf Engineering Workshop, 2015
- Scholar of the Week. Virginia Tech Office of the Vice President for Research, 2015
- Poster competition winner. 2nd Gordon Research Conference in Environmental Nanotechnology, 2013
- Carl Storm Underrepresented Minority Fellowship. Gordon Research Conference, 2013
- Academic Excellence and Leadership Honor Society of Graduate Students, 2012
- Via Academic Prep Fellowship, Department of Civil and Environmental Engineering, Virginia Tech, 2012
- Travel Grant Winner. 30th AAAR Annual Conference, 2011
- Interdisciplinary Research Honor Society, Founding Member, 2011
- Poster Competition Winner. 29th AAAR Annual Conference, 2010
- Outstanding Undergraduate Student Research. Universidade Federal de Santa Catarina, Brazil, 2003
Recent Publications:
**denotes work done in collaboration with graduate students
*denotes work done in collaboration with undergraduate students
- Wang L, T Lin, H Da Costa, S Zhu, T Stockman, A Kumar, J Weaver, M Spede, D Milton, J Hertzberg, D Toohey, ME Vance, SL Miller, J Srebric. 鈥淐haracterization of Aerosol Plumes from Singing and Playing Wind Instruments Associated with the Risk of Airborne Virus Transmission.鈥 Submitted and in review. Accepted, Indoor Air.
- Aksenov AA, RA Salido, AV Melnik, C Brennan, A Brejnrod, AM Caraballo-Rodr铆guez, JM Gauglitz, F Lejzerowicz, DK Farmer, ME Vance, R Knight, PC Dorrestein. The molecular impact of life in an indoor environment. Accepted, Science Advances.
- Sankhyan, S**, JK Witteman*, S Coyan*, S Patel, ME Vance. 鈥淎ssessment of PM2.5 concentrations, transport, and mitigation in indoor environments using low-cost air quality monitors and a portable air cleaner.鈥 Accepted, Environmental Science: Atmospheres.
- Mattila, JM, C Arata, A Abeleira, Y Zhou, C Wang, EF Katz, AH Goldstein, JPD Abbatt, PF DeCarlo, ME Vance, DK Farmer. 鈥淐ontrasting chemical complexity of indoor and outdoor reactive organic carbon.鈥 Environmental Science & Technology.
- Patel, S, D Rim, S Sankhyan**, ME Vance. 鈥淒ynamics Modeling and Estimation of Emission Rates sub-500 nm Particles During the HOMEChem Study.鈥 Environmental Science: Processes & Impacts, 23, 1706 - 1717.
- Sankhyan, S**, S Patel**, EF Katz, PF DeCarlo, DK Farmer, WW Nazaroff, ME Vance. 鈥淚ndoor black and brown carbon from cooking activities and outdoor penetration: Insights from the HOMEChem study.鈥 Environmental Science: Processes & Impacts, 23: 1476-1487.
- Sankhyan, S**, K Heinselman, P Ciesielski, T Barnes, M Himmel, H Teed*, S Patel, ME Vance. 鈥淔iltration performance of masks and face coverings and the reusability of cotton masks after repeated washing and drying cycles.鈥 Aerosol and Air Quality Research, 2021, 21(11): 210117.
- Stockman, T, S Zhu, A Kumar, L Wang, S Patel, J Weaver, M Spede, D Milton, JR Hertzberg, DW Toohey, ME Vance, J Srebbric, SL Miller. 鈥淢easurements and Simulations of Aerosol Released while Singing and Playing Wind Instruments.鈥 ACS Environmental Au, 2021, 1(1): 71-84.
- Arata, C, PK Misztal, Y Tian, DM Lunderberg, K Kristensen, ME Vance, DK Farmer, WW Nazaroff, AH Goldstein. 鈥淰olatile Organic Compound Emissions During HOMEChem鈥. Indoor Air, 2021, 31 (6): 2099-2117.
- Boedicker, E, E Emerson, G McMeeking, S Patel, ME Vance, DK Farmer. 鈥淔ates and spatial variations of submicron indoor particles during HOMEChem cooking events.鈥 Environmental Science: Processes & Impacts, 2021, 23(7): 1029-1039.
- Hayes, A**, J Osio-Norgaard, S Miller, G Whiting, ME Vance. 鈥淎ir Pollutant Emissions from Multi Jet Fusion, Material-jetting, and Digital Light Synthesis Commercial 3D Printers in a Service Bureau鈥. Building and Environment, 2021, 202: 108008.
- Katz, EF, E Boedicker, WL Brown, P Campuzano-Jost, DA Day, DK Farmer, AH Goldstein, H Guo, L Hildebrandt Ruiz, JL Jimenez, DM Lunderberg, S Patel, K Patel, ME Vance, PF DeCarlo. 鈥淨uantification of cooking organic aerosol in the indoor environment using Aerodyne aerosol mass spectrometers.鈥 Aerosol Science & Technology, 2021, 55(10): 1099-1114.
- Hayes, A**, J Osio-Norgaard, S Miller, ME Vance, G Whiting. 鈥淚nfluence of Powder Type on Aerosol Emissions in Powder-Binder Jetting with Emphasis on Lunar Regolith for In-Situ Space Applications.鈥 Environmental Science & Technology Engineering, 2021, 1(2): 183-191.
- Brown, W, D Day, H Stark, D Pagonis, J Krechmer, X Liu, D Price, E Katz, PF DeCarlo, C Masoud, D Wang, L Hildebrandt Ruiz, C Arata, D Lunderberg, A Goldstein, DK Farmer, ME Vance, JL Jimenez. 鈥淩eal-time organic aerosol chemical speciation in the indoor environment using extractive electrospray ionization mass spectrometry.鈥 Indoor Air, 2021, 31 (1): 141-155.
- Tian, Y, C Arata, E Boedicker, DM Lunderberg, S Patel, S Sankhyan**, K Kristensen, PK Misztal, DK Farmer, ME Vance, A Novoselac, WW Nazaroff, AH Goldstein. 鈥淚ndoor Emissions of Total and Fluorescent Supermicron Particles during HOMEChem.鈥 Indoor Air, 2021, 31 (1): 88鈥98.
- Wang, C, B Bottorff, E Reidy, C Rosales, D Collins, A Novoselac, DK Farmer, ME Vance, P Stevens, J Abbatt. 鈥淐ooking, bleach cleaning and air conditioning strongly impact levels of HONO in a house.鈥 Environmental Science & Technology, 2020, 54(21): 13488-13497.
- Ault, AP, VH Grassian, N Carslaw, DB Collins, H Destaillats, DJ Donaldson, DK Farmer, JL Jimenez, VF McNeill, GC Morrison, RE O'Brien, M Shiraiwa, ME Vance, JR Wells, W Xiong. 鈥淚ndoor Surface Chemistry: Developing a Molecular Picture of Reactions on Indoor Interfaces.鈥 Chem, 2020, 6(12): 3203-3218.
- Or, VW, M Wade, S Patel, MR Alves, D Kim, S Schwab, H Przelomski, R O鈥橞rien, D Rim, RL Corsi, ME Vance, DK Farmer, VH Grassian. 鈥淕lass Surface Evolution Following Gas Adsorption and Particle Deposition from Indoor Cooking Events as Probed by Microspectroscopic Imaging and Characterization.鈥 Environmental Science: Processes and Impacts, 2020, 22: 1698-1709.
- Patel, S, S Sankhyan**, EK Boedicker, PF DeCarlo, DK Farmer, AH Goldstein, EF Katz, WW Nazaroff, Y Tian, J Vanhanen, ME Vance. 鈥淚ndoor aerosol emissions during the HOMEChem study: sources, evolution, and estimated exposure.鈥 Environmental Science & Technology, 2020, 54(12): 7107-7116.
- Lunderberg, DM, K Kristensen, Y Tian, C Arata, PK Misztal, Y Liu, N Kreisberg, EF Katz, PF DeCarlo, S Patel, ME Vance, WW Nazaroff, AH Goldstein. 鈥淪urface emissions modulate indoor SVOC concentrations through volatility-dependent partitioning.鈥 Environmental Science & Technology, 2020, 54(11): 6751-6760.
- Toth, S**, M Hannigan, ME Vance, ME, M Deceglie. 鈥淧redicting photovoltaic soiling from air quality measurements.鈥 IEEE Journal of Photovoltaics, 2020, 10(4): 1142-1147.
- Mattila, J, P Lakey, M Shiraiwa, C Wang, J Abbatt, C Arata, AH Goldstein, L Ampollini, E Katz, P DeCarlo, S Zhou, TF Kahan, F Cardoso Salda帽a, L Hildebrandt Ruiz, A Abeleira, E Boedicker, ME Vance, DK Farmer. 鈥淢ultiphase chemistry controls inorganic chlorinated and nitrogenated compounds in indoor air during bleach cleaning.鈥 Environmental Science & Technology, 2020, 54(3): 1730-1739.
- Wang, C, DB Collins, C Arata, AH Goldstein, JM Mattila, DK Farmer, A Novoselac, ME Vance, WW Nazaroff, JPD Abbatt. 鈥淪urface reservoirs dominate dynamic gas-surface partitioning of many indoor air constituents.鈥 Science Advances, 2020, 6(8): eaay8973.
- Geitner, NK, CO Hendren, G Cornelis, R Kaegi, JR Lead, GV Lowry, I Lynch, B Nowack, E Petersen, E Bernhardt, S Brown, W Chen, C Garidel-Thoron, J Hanson, SL Harper, K Jones, F Von der Kammer, A Kennedy, J Kidd, CW Matson, C. Metcalf, JA Pedersen, WJGM. Peijnenburg, JTK Quik, SM Rodrigues, J Rose, P Sayre, M Simonin, C Svendsen, RL Tanguay, N Tufenkji, T van Teunenbroek, G Thies, Y Tian, J Rice, A Turner, J Liu, J Unrine, ME Vance, JC White, MR Wiesner. 鈥淗armonizing Across Environmental Nanomaterial Testing Media for Increased Comparability of Nanomaterial Datasets.鈥 Environmental Science: Nano, 2020, 7: 13-36.
- Farmer, DK, ME Vance, J Abbatt, A Abeleira, MR Alves, C Arata, E Boedicker, S Bourne, F Cardoso-Salda帽a, R Corsi, PF DeCarlo, AH Goldstein, VH Grassian, L Hildebrandt Ruiz, JL Jimenez, TF Kahan, EF Katz, J Mattila, W Nazaroff, A Novoselac, VW Or, RE O鈥橞rien, S Patel, S Sankhyan**, PS Stevens, Y Tian, C Wang, S Zhou, Y Zhou. 鈥淥verview of HOMEChem: House Observations of Microbial and Environmental Chemistry.鈥 Environmental Science: Processes Impacts, 2019, 21: 1280-1300.