Lauren F. Greenlee Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Federal Grant PI High Impact

Researcher

University of Arkansas at Fayetteville

faculty

28 h-index 225 pubs 8,227 cited

Research Areas

Electrochemical Analysis and Applications Soil and Water Nutrient Dynamics Phosphorus and nutrient management Wastewater Treatment Technologies Biomass Conversion and Upgrading Catalytic Processes in Materials Science Resource Recovery Technologies

Links

ORCID Lab Website

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OverviewAI-generated summary

Lauren F. Greenlee's research focuses on electrochemical processes for environmental remediation and resource recovery. Her work investigates the application of electrochemistry in removing pollutants such as ammonia and phosphate from wastewater, with a specific interest in transforming these removed substances into valuable products like magnesium ammonium phosphate (struvite). Greenlee also explores the electrochemical degradation of organic compounds, such as glucose to lactic acid, for biomass upgrading.

Her research program has been supported by federal funding, including a $379,998 NSF-DFG Echem grant for operando electronic structure determination of iron and its dynamics in electrooxidation catalysts. Greenlee's scholarship metrics include an h-index of 28, 225 total publications, and over 8,200 citations, designating her as a highly cited researcher. She actively collaborates with several faculty members at the University of Arkansas at Fayetteville, including László Kékedy‐Nagy, Kristofor R. Brye, Trenton L. Roberts, and Mojtaba Abolhassani, with whom she has co-authored multiple publications.

Metrics

h-index: 28
Publications: 225
Citations: 8,227

Selected Publications

Uphill transport of sulfate and chloride ions under different operational conditions of a reverse electrodialysis (RED) stack (2025) DOI
Sustainable electroless nutrient recovery from natural agro-industrial and livestock farm wastewater effluents with a flow cell reactor (2024) DOI
The high energetic potential of hydraulic fracturing wastewaters with both salinity and temperature gradients for electricity generation using a reverse electrodialysis stack (2024) DOI
Revealing Structural Evolution of Nickel Phosphide-Iron Oxide Core–Shell Nanocatalysts in Alkaline Medium for the Oxygen Evolution Reaction (2024) DOI
Leaching characteristics of electrochemically precipitated struvite compared to other common phosphorus fertilizers in differing soils (2024) DOI
Temporal Ni K-Edge X-ray Absorption Spectroscopy Study Reveals the Kinetics of the Ni Redox Behavior of the Iron-Nickel Oxide Bimetallic OER Catalyst (2023) DOI
The implications of pulsating anode potential on the electrochemical recovery of phosphate as magnesium ammonium phosphate hexahydrate (struvite) (2023) DOI
Pressure-driven membrane nutrient preconcentration for down-stream electrochemical struvite recovery (2022) DOI
Biodegradable microneedle patch for delivery of meloxicam for managing pain in cattle (2022) DOI
(Digital Presentation) Electrochemical Recovery of Ammonium and Phosphate from Municipal Wastewater Sources: Kinetics and Water Chemistry (2022) DOI
Electrochemical recovery of phosphate from synthetic wastewater with enhanced salinity (2022) DOI
Electrochemical Activation of Silicon: Enhancing Hydrogen Production from FeNi Electrocatalysts (2022) DOI
Fe Coordination Environment, Fe-Incorporated Ni(OH)<sub>2</sub> Phase, and Metallic Core Are Key Structural Components to Active and Stable Nanoparticle Catalysts for the Oxygen Evolution Reaction (2022) DOI
Disinfection/Ammonia Removal from Aquaculture Wastewater and Disinfection of Irrigation Water using Electrochemical Flow Cells: A Case Study in Hawaii (2021) DOI
Electrochemical nutrient removal from natural wastewater sources and its impact on water quality (2021) DOI