L
Lauren F. Greenlee
Researcher at University of Arkansas
Publications - 88
Citations - 5578
Lauren F. Greenlee is an academic researcher from University of Arkansas. The author has contributed to research in topics: Chemistry & Struvite. The author has an hindex of 19, co-authored 66 publications receiving 4112 citations. Previous affiliations of Lauren F. Greenlee include University of Michigan & United States Department of the Army.
Papers
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Reverse osmosis desalination: Water sources, technology, and today's challenges
TL;DR: Key parameters of an RO process and process modifications due to feed water characteristics are brought to light by a direct comparison of seawater and brackish water RO systems.
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Catalysts for nitrogen reduction to ammonia
Shelby L. Foster,Sergio I. Perez Bakovic,Royce D. Duda,Sharad Maheshwari,Ross D. Milton,Shelley D. Minteer,Michael J. Janik,Julie N. Renner,Lauren F. Greenlee +8 more
TL;DR: A review of the state of the art and scientific needs for heterogeneous electrocatalysts for electrochemical reduction of dinitrogen to ammonia can be found in this article, with a particular focus on how mechanistic understanding informs catalyst design.
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Nanocomposite membranes for water separation and purification: Fabrication, modification, and applications
Milad Rabbani Esfahani,Sadegh Aghapour Aktij,Zoheir Dabaghian,Mostafa Dadashi Firouzjaei,Ahmad Rahimpour,Joyner Eke,Isabel C. Escobar,Mojtaba Abolhassani,Lauren F. Greenlee,Amirsalar R. Esfahani,A.H.M. Anwar Sadmani,Negin Koutahzadeh +11 more
TL;DR: In this article, different nanocomposite membrane fabrication and modification techniques for mixed matrix membranes and thin film membranes for both pressure driven and non-pressure driven membranes using different types of nanoparticles, carbon-based materials, and polymers are discussed.
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The Use of Controls for Consistent and Accurate Measurements of Electrocatalytic Ammonia Synthesis from Dinitrogen
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Multi-Component Fe–Ni Hydroxide Nanocatalyst for Oxygen Evolution and Methanol Oxidation Reactions under Alkaline Conditions
Stephanie L. Candelaria,Nicholas M. Bedford,Taylor J. Woehl,Nikki S. Rentz,Allison R. Showalter,Svitlana Pylypenko,Bruce A. Bunker,Sungsik Lee,Benjamin Reinhart,Yang Ren,S. Piril Ertem,E. Bryan Coughlin,Nicholas A. Sather,Nicholas A. Sather,James L. Horan,Andrew M. Herring,Lauren F. Greenlee,Lauren F. Greenlee +17 more
TL;DR: In this paper, bimetallic iron-nickel nanoparticles were synthesized using a multistep procedure in water under ambient conditions, and they showed enhanced catalytic activity for both OER and methanol oxidation under alkaline conditions.