Ammonia Borane: An Extensively Studied, Though Not Yet Implemented, Hydrogen Carrier

Demirci, Umit B.

doi:10.3390/en13123071

Cited by 72 publications

(64 citation statements)

References 323 publications

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“…This report details our research findings related to chemical hydrogen storage not only in the narrow context related to ammonia borane and alane but also in the broader, more general context of chemical hydrogen storage materials. This manuscript complements the published works [ 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 ] that put into perspective the challenges of hydrogen storage for automotive applications.…”

Section: Introductionsupporting

confidence: 66%

“…Of the many chemical hydrogen storage materials studied in the CHSCoE, ammonia borane and alane were down-selected for further study-primarily based on their volumetric and gravimetric hydrogen capacities and the likelihood in meeting the DOE system level targets. For a thorough review of ammonia borane and its properties, the reader is directed to the following references [ 2 , 3 , 6 ], in particular, the review by [ 4 ].…”

Section: Ammonia Borane Materials Propertiesmentioning

confidence: 99%

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Engineering Challenges of Solution and Slurry-Phase Chemical Hydrogen Storage Materials for Automotive Fuel Cell Applications

et al. 2021

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We present the research findings of the DOE-funded Hydrogen Storage Engineering Center of Excellence (HSECoE) related to liquid-phase and slurry-phase chemical hydrogen storage media and their potential as future hydrogen storage media for automotive applications. Chemical hydrogen storage media other than neat liquid compositions will prove difficult to meet the DOE system level targets. Solid- and slurry-phase chemical hydrogen storage media requiring off-board regeneration are impractical and highly unlikely to be implemented for automotive applications because of the formidable task of developing solid- or slurry-phase transport systems that are commercially reliable and economical throughout the entire life cycle of the fuel. Additionally, the regeneration cost and efficiency of chemical hydrogen storage media is currently the single most prohibitive barrier to implementing chemical hydrogen storage media. Ideally, neat liquid-phase chemical hydrogen storage media with net-usable gravimetric hydrogen capacities of greater than 7.8 wt% are projected to meet the 2017 DOE system level gravimetric and volumetric targets. The research presented herein is a collection of research findings that do not in and of themselves warrant a dedicated manuscript. However, the collection of results do, in fact, highlight the engineering challenges and short-comings in scaling up and demonstrating fluid-phase ammonia borane and alane compositions that all future materials researchers working in hydrogen storage should be aware of.

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Section: Introductionsupporting

confidence: 66%

Section: Ammonia Borane Materials Propertiesmentioning

confidence: 99%

Engineering Challenges of Solution and Slurry-Phase Chemical Hydrogen Storage Materials for Automotive Fuel Cell Applications

et al. 2021

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“…[1] It has received considerable attention over the past two decades owing to its high hydrogen density (19.5 wt% H) that has given it some potential as hydrogen storage material. [2] AB is an old molecule, [3] and it has gained new interest with the emergence of the hydrogen economy. [4] More broadly, ABAs are old molecules with new interest.…”

Section: Introductionmentioning

confidence: 99%

A Series of Primary Alkylamine Borane Adducts C_xH_2x+1NH₂BH₃: Synthesis and Properties

et al. 2021

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Primary alkylamine borane adducts C x H 2x + 1 NH 2 BH 3 (CxAB) are unconventional molecules that may offer great opportunities in chemistry owing to their dihydrogen H δ + ⋅⋅⋅H δÀ bonds. Herein, we focus on six CxAB (x = 4,6,8,10,12,14), synthesized by Lewis acid-base reaction between the complex (CH 3 ) 2 S⋅BH 3 and the primary alkylamines. At ambient temperature, C4AB and C6AB are oily liquid, and the other adducts are crystalline solids. The melting temperatures of the CxAB linearly increase as a function of ln(x) due to stronger intermolecular Van der Waals forces between the alkyl chains, and they are higher by 20-40°C than those of the amines due to dihydrogen H δ + ⋅⋅⋅H δÀ bonds between the NH 2 BH 3 heads. The occurrence of dihydrogen H δ + ⋅⋅⋅H δÀ bonds is further confirmed by molecular and structural analyses. This is discussed hereafter.

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“…Ammonia borane (NH 3 BH 3 , AB) is an extensively studied hydride and dozens of review articles have already appeared discussing the results of these studies [ 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 ]. The high hydrogen content of this hydride (19.6 wt%) allows it to be applied in a variety of fields: as hydrogen storage systems to generate hydrogen for the needs of hydrogen economy [ 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 ], as a component of fuels [ 11 , 12 ], as a reducing agent in fine organic synthesis [ 13 ] and in the synthesis of metallic nanoparticles [ 14 , 15 ].…”

Section: Introductionmentioning

confidence: 99%

“…Different ways have been employed to release hydrogen from ammonia borane. Processes of its solid-state dehydrogenation from different hydride-containing materials have been described [ 5 , 7 ]. Processes of its dehydrogenation in organic solvents are also studied [ 16 ] (including with the use of catalysts [ 17 ]).…”

Section: Introductionmentioning

confidence: 99%

Catalytic Behavior of Iron-Containing Cubic Spinel in the Hydrolysis and Hydrothermolysis of Ammonia Borane

et al. 2021

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The paper presents a comparative study of the activity of magnetite (Fe3O4) and copper and cobalt ferrites with the structure of a cubic spinel synthesized by combustion of glycine-nitrate precursors in the reactions of ammonia borane (NH3BH3) hydrolysis and hydrothermolysis. It was shown that the use of copper ferrite in the studied reactions of NH3BH3 dehydrogenation has the advantages of a high catalytic activity and the absence of an induction period in the H2 generation curve due to the activating action of copper on the reduction of iron. Two methods have been proposed to improve catalytic activity of Fe3O4-based systems: (1) replacement of a portion of Fe2+ cations in the spinel by active cations including Cu2+ and (2) preparation of highly dispersed multiphase oxide systems, involving oxide of copper.

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Ammonia Borane: An Extensively Studied, Though Not Yet Implemented, Hydrogen Carrier

Cited by 72 publications

References 323 publications

Engineering Challenges of Solution and Slurry-Phase Chemical Hydrogen Storage Materials for Automotive Fuel Cell Applications

Engineering Challenges of Solution and Slurry-Phase Chemical Hydrogen Storage Materials for Automotive Fuel Cell Applications

A Series of Primary Alkylamine Borane Adducts C_xH_2x+1NH₂BH₃: Synthesis and Properties

Catalytic Behavior of Iron-Containing Cubic Spinel in the Hydrolysis and Hydrothermolysis of Ammonia Borane

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Ammonia Borane: An Extensively Studied, Though Not Yet Implemented, Hydrogen Carrier

Cited by 72 publications

References 323 publications

Engineering Challenges of Solution and Slurry-Phase Chemical Hydrogen Storage Materials for Automotive Fuel Cell Applications

Engineering Challenges of Solution and Slurry-Phase Chemical Hydrogen Storage Materials for Automotive Fuel Cell Applications

A Series of Primary Alkylamine Borane Adducts CxH2x+1NH2BH3: Synthesis and Properties

Catalytic Behavior of Iron-Containing Cubic Spinel in the Hydrolysis and Hydrothermolysis of Ammonia Borane

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A Series of Primary Alkylamine Borane Adducts C_xH_2x+1NH₂BH₃: Synthesis and Properties