Julie Zimmerman
Julie Zimmerman
Verified email at yale.edu
TitleCited byYear
Peer reviewed: design through the 12 principles of green engineering
PT Anastas, JB Zimmerman
Environmental science & technology 37 (5), 94A-101A, 2003
Peer reviewed: Applying the principles of green engineering to cradle-to-cradle design
W McDonough, M Braungart, PT Anastas, JB Zimmerman
Environmental science & technology 37 (23), 434A-441A, 2003
Combinatorial life cycle assessment to inform process design of industrial production of algal biodiesel
LB Brentner, MJ Eckelman, JB Zimmerman
Environmental science & technology 45 (16), 7060-7067, 2011
Toward Understanding the Efficacy and Mechanism of Opuntia spp. as a Natural Coagulant for Potential Application in Water Treatment
SM Miller, EJ Fugate, VO Craver, JA Smith, JB Zimmerman
Environmental science & technology 42 (12), 4274-4279, 2008
Algae as a source of renewable chemicals: opportunities and challenges
PM Foley, ES Beach, JB Zimmerman
Green Chemistry 13 (6), 1399-1405, 2011
Global stressors on water quality and quantity
JB Zimmerman, JR Mihelcic, J Smith
Environmental science & technology 42 (12), 4247-4254, 2008
Fate of sucralose through environmental and water treatment processes and impact on plant indicator species
L Soh, KA Connors, BW Brooks, J Zimmerman
Environmental Science & Technology 45 (4), 1363-1369, 2011
Derivation and synthesis of renewable surfactants
P Foley, ES Beach, JB Zimmerman
Chemical Society Reviews 41 (4), 1499-1518, 2012
Challenges in developing biohydrogen as a sustainable energy source: implications for a research agenda
LB Brentner, J Peccia, JB Zimmerman
Environmental science & technology 44 (7), 2243-2254, 2010
Biodiesel production: the potential of algal lipids extracted with supercritical carbon dioxide
L Soh, J Zimmerman
Green Chemistry 13 (6), 1422-1429, 2011
Nitrogen supply is an important driver of sustainable microalgae biofuel production
J Peccia, B Haznedaroglu, J Gutierrez, JB Zimmerman
Trends in biotechnology 31 (3), 134-138, 2013
Toward Green Nano: E]factor Analysis of Several Nanomaterial Syntheses
MJ Eckelman, JB Zimmerman, PT Anastas
Journal of Industrial Ecology 12 (3), 316-328, 2008
Impact of surface functionalization on bacterial cytotoxicity of single-walled carbon nanotubes
LM Pasquini, SM Hashmi, TJ Sommer, M Elimelech, JB Zimmerman
Environmental science & technology 46 (11), 6297-6305, 2012
Environmental engineering: Fundamentals, sustainability, design
JR Mihelcic, JB Zimmerman
Wiley Global Education, 2014
Novel, bio-based, photoactive arsenic sorbent: TiO2-impregnated chitosan bead
SM Miller, JB Zimmerman
Water research 44 (19), 5722-5729, 2010
Consequential environmental and economic life cycle assessment of green and gray stormwater infrastructures for combined sewer systems
R Wang, MJ Eckelman, JB Zimmerman
Environmental science & technology 47 (19), 11189-11198, 2013
Green chemistry and green engineering: a framework for sustainable technology development
MJ Mulvihill, ES Beach, JB Zimmerman, PT Anastas
Annual review of environment and resources 36, 271-293, 2011
Enhanced arsenic removal using mixed metal oxide impregnated chitosan beads
JS Yamani, SM Miller, ML Spaulding, JB Zimmerman
Water research 46 (14), 4427-4434, 2012
Designing nanomaterials to maximize performance and minimize undesirable implications guided by the Principles of Green Chemistry
LM Gilbertson, JB Zimmerman, DL Plata, JE Hutchison, PT Anastas
Chemical Society Reviews 44 (16), 5758-5777, 2015
Preferential technological and life cycle environmental performance of chitosan flocculation for harvesting of the green algae Neochloris oleoabundans
ES Beach, MJ Eckelman, Z Cui, L Brentner, JB Zimmerman
Bioresource technology 121, 445-449, 2012
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