Photo-Electrochemical Ammonia Synthesis - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Photo-Electrochemical Ammonia Synthesis write by Mohammadreza Nazemi. This book was released on 2021. Photo-Electrochemical Ammonia Synthesis available in PDF, EPUB and Kindle. "This book covers the synthesis of novel hybrid plasmonic nanomaterials and their application in photo-electrochemical systems to convert low energy molecules to high value-added molecules and looks specifically at photo-electrochemical nitrogen reduction reaction (NRR) for ammonia synthesis as an attractive alternative to the long-lasting thermochemical process. This book will be of high interest to researchers, advanced students, and industry professionals in working in sustainable energy storage and conversion across the disciplines of Chemical Engineering, Mechanical Engineering, Materials Science and Engineering, Environmental Engineering, and related areas"--
Photo-Electrochemical Ammonia Synthesis
Photo-Electrochemical Ammonia Synthesis - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Photo-Electrochemical Ammonia Synthesis write by Mohammadreza Nazemi. This book was released on 2021-07-27. Photo-Electrochemical Ammonia Synthesis available in PDF, EPUB and Kindle. Ammonia holds great promise as a carbon-neutral liquid fuel for storing intermittent renewable energy sources and power generation due to its high energy density and hydrogen content. Photo-Electrochemical Ammonia Synthesis: Nanocatalyst Discovery, Reactor Design, and Advanced Spectroscopy covers the synthesis of novel hybrid plasmonic nanomaterials and their application in photo-electrochemical systems to convert low energy molecules to high value-added molecules and looks specifically at photo-electrochemical nitrogen reduction reaction (NRR) for ammonia synthesis as an attractive alternative to the long-lasting thermochemical process. Provides an integrated scientific framework, combining materials chemistry, photo-electrochemistry, and spectroscopy to overcome the challenges associated with renewable energy storage and transport Reviews materials chemistry for the synthesis of a range of heterogeneous (photo) electrocatalysts including plasmonic and hybrid plasmonic-semiconductor nanostructures for selective and efficient conversion of N2 to NH3 Covers novel reactor design to study the redox processes in the photo-electrochemical energy conversion system and to benchmark nanocatalysts’ selectivity and activity toward NRR Discusses the use of advanced spectroscopic techniques to probe the reaction mechanism for ammonia synthesis Offers techno-economic analysis and presents performance targets for the scale-up and commercialization of electrochemical ammonia synthesis This book is of value to researchers, advanced students, and industry professionals working in sustainable energy storage and conversion across the disciplines of Chemical Engineering, Mechanical Engineering, Materials Science and Engineering, Environmental Engineering, and related areas.
Sustainable Ammonia Production
Sustainable Ammonia Production - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Sustainable Ammonia Production write by Inamuddin. This book was released on 2020-01-09. Sustainable Ammonia Production available in PDF, EPUB and Kindle. This book presents sustainable synthetic pathways and modern applications of ammonia. It focuses on the production of ammonia using various catalytic systems and its use in fuel cells, membrane, agriculture, and renewable energy sectors. The book highlights the history, investigation, and development of sustainable pathways for ammonia production, current challenges, and state-of-the-art reviews. While discussing industrial applications, it fills the gap between laboratory research and viable applications in large-scale production.
Catalytic Ammonia Synthesis
Catalytic Ammonia Synthesis - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Catalytic Ammonia Synthesis write by J.R. Jennings. This book was released on 2013-06-29. Catalytic Ammonia Synthesis available in PDF, EPUB and Kindle. The phenomenon of catalysis is found in many homogeneous and heterogeneous systems undergoing chemical change, where it effects the rates of approach to the equilibrium state in processes as diverse as those found in the stars, the earth's mantle, living organisms, and the various chemistries utilized by industry. The economies and the living standards of both developed and developing countries depend to varying degrees upon the efficacy of their chemical industries. Con sequently, this century has seen a wide exploration and expansion of catalytic chemistry together with an intensive investigation of specific, essential processes like those contributing to life-supporting agricultures. Prime among the latter must surely be the "fixation" of atmospheric nitrogen by catalytic hydrogenation to anhydrous ammonia, still the preferred synthetic precursor of the nitrogenous components of fertilizers. In each decade contemporary concepts and techniques have been used to further the understanding, as yet incomplete, of the catalyst, the adsorbates, the surface reactions, and the technology of large-scale operation. The contributors to the present volume review the state of the art, the science, and the technology; they reveal existing lacunae, and suggest ways forward. Around the turn of the century, Sabatier's school was extending the descriptive catalytic chemistry of hydrogenation by metals to include almost all types of multiple bond. The triple bond of dinitrogen, which continued to be more resistant than the somewhat similar bonds in carbon monoxide and ethyne, defied their efforts.
Electrochemical Ammonia Synthesis
Electrochemical Ammonia Synthesis - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Electrochemical Ammonia Synthesis write by John Anthony Schwalbe. This book was released on 2019. Electrochemical Ammonia Synthesis available in PDF, EPUB and Kindle. Due to the development of the Haber-Bosch process, humanity accounts for over half of the nitrogen fixation that occurs on Earth, the other half being microbial activity and lightning. This leads to a large footprint in terms of runoff, energy usage, and plant growth. Due to its use of methane as a source of hydrogen, the Haber-Bosch process emits 1% of all anthropogenic carbon dioxide. The high temperature and pressure required by the Haber-Bosch process also necessitates large, centralized plants. In this thesis, I explore a possible alternative, electrochemical ammonia synthesis. This process uses proton-electron pairs to reduce nitrogen at a cathode in an electrochemical cell. The only inputs are air, water, and electricity. If successful, an electrochemical ammonia cell could operate at ambient temperature and pressure due to the high driving force provided by the electric potential. The challenge of electrochemical ammonia synthesis comes from the inert nature of dinitrogen and the ease of the competing hydrogen evolution reaction. In the Haber-Bosch process, high temperatures are used to help break the N-N triple bond. In electrochemical ammonia synthesis, voltage and reactive catalysts are used. Unfortunately, at these conditions protons can be readily reduced to hydrogen rather than added to the nitrogen to form ammonia. Not only is ammonia synthesis difficult from a fundamental standpoint, it is also difficult from the standpoint of experimental validation. Because the amounts of ammonia detected are generally small, contamination is easily mistaken for positive results. For example, a human breath contains enough ammonia to produce what appears to be a promising result. Many common materials, epoxy, nitric acid, rubber gloves, etc., contain nitrogen compounds that can be reduced more easily than dinitrogen. Working with our collaborators in Ib Chorkendorff's group at DTU and other SUNCAT researchers at Stanford University we developed rigorous protocols to overcome these challenges. The only way to definitively prove ammonia synthesis is with quantitative isotopically labeled experiments with purified 15N2 gas. However, the contamination found in many commercially available cylinders of 15N2 means that such an experiment could easily be fooled. Our work on proton limitations combined with rigorous verification led to the first unambiguous demonstration of electrochemical ammonia synthesis using a lithium mediated strategy, described in chapter 3. The lithium-mediated protocol was first explored in 1993 by Tsuneto et. al., but they did not possess the techniques necessary to truly prove ammonia synthesis. Our definitive result is important for two reasons. First, it validated our theoretical framework and should inspire future research into non-aqueous systems for nitrogen reduction and other challenging reactions. Second, it allowed for a positive demonstration of ammonia synthesis. we investigated the nature of the ammonia synthesis as well as the reaction at the counter electrode. The lithium mediated system uses a THF electrolyte with dissolved lithium perchlorate as a lithium source and electrolyte and ethanol as a proton donor. The cell is operated at a voltage where lithium is plated onto the cathode. The nature of the catalyst is not obvious. Using electrochemical characterization and density functional theory, we show that lithium metal, lithium nitride, and lithium hydride are all plausible candidate catalysts. Experiments show that appreciable amount of the current ends up as lithium on the surface. Surprisingly, relatively little of this reacts to form fixed nitrogen on the cathode. Density Functional Theory experiments support this observation by showing that lithium nitride should be unstable relative to lithium metal and ammonia at the operating conditions. These calculations also suggest that lithium hydride and nitride can both act as catalysts for ammonia synthesis, opening up exciting options for materials that are stable at less reducing conditions.
