Hybrid Solid-State Hydrogen Storage Materials

Benge, Kathryn Ruth

January 2008

This thesis investigates the chemistry of ammonia borane (NH3BH3) relevant to the development of hydrogen storage systems for vehicular applications. Because of its high hydrogen content and low molecular weight ammonia borane has the potential to meet stringent gravimetric hydrogen storage targets of gt;9 wt%. Two of the three moles of H2 in ammonia borane can be released under relatively mild conditions, with the highest gravimetric yield obtained in the solid-state. However, ammonia borane does not deliver sufficient H2 at practical temperatures and the products formed upon H2 loss are not amenable to regeneration back to the parent compound. The literature synthesis of ammonia borane was modified to facilitate large scale synthesis, and the deuterated analogues ND3BH3 and NH3BD3 were prepared for the purpose of mechanistic studies. The effect of lithium amide on the kinetics of dehydrogenation of ammonia borane was assessed by means of solid-state reaction in a series of specific molar ratios. Upon mixing lithium amide and ammonia borane, an exothermic reaction ensued resulting in the formation of a weakly bound adduct with an H2N...BH3-NH3 environment. Thermal decomposition at or above temperatures of 50eg;C of this phase was shown to liberate gt;9 wt% H2. The mechanism of hydrogen evolution was investigated by means of reacting lithium amide and deuterated ammonia borane isotopologues, followed by analysis of the isotopic composition of evolved gaseous products by mass spectrometry. From these results, an intermolecular multi-step reaction mechanism was proposed, with the rates of the first stage strongly dependent on the concentration of lithium amide present. Compounds exhibiting a BN3 environment (identified by means of solid-state sup1;sup1;B NMR spectroscopy) were formed during the first stage, and subsequently cross link to form a non-volatile solid. Further heating of this non-volatile solid phase ultimately resulted in the formation of crystalline Li3BN2 - identified by means of powder X-ray diffractometry. This compound has been identified as a potential hydrogen storage material due to its lightweight and theoretically high hydrogen content. It may also be amenable to hydrogen re-absorption. The LiNH2/CH3NH2BH3 system was also investigated. Thermal decomposition occurred through the same mechanism described for the LiNH2/NH3BH3 system to theoretically evolve gt;8 wt% hydrogen. The gases evolved on thermal decomposition were predominantly H2 with traces of methane detected by mass spectrometry.

ammonia borane

Hydrogen storage

Hydrogen

methylamine borane

lithium amide

11B NMR

solid-state NMR

Diastereoselective α-Alkylation of Chiral β-Borylated Esters

Perfetti, Michael Thomas

13 January 2010

The use of boron in the synthesis and development of asymmetric methodologies and various biological and medicinal compounds has increased significantly over the last decade. This thesis reports the development of a novel diastereoselective reaction for the α-alkylation of chiral β-borylated esters. We propose that standard deprotonation of chiral β-borylated esters with lithium diisopropylamide (LDA) leads to the formation of a boron"ate" intermediate that upon treatment with an alkylation reagent collapses to provide chiral α, β-substituted boronic esters with a high degree of diastereoselectivity. This reaction is powerful in that a wide range of chiral β-borylated ester substrates can be employed that possess varying degrees of substitution and steric bulk. Results show that the reaction is syn-selective and provides yields of up to 60%, with diastereomeric ratios as high as (9.7:1). Additionally, alkylation products from bulkier tert-butyl esters provide higher DR values compared to those of methyl esters that possess the same β-functional groups. Several techniques were utilized to elucidate the mechanism of this reaction including variations of reaction temperature and equivalents of base, and also real-time analysis of the reaction by ¹¹B NMR experiments. / Master of Science

Diastereoselective α-alkylation

syn selective

11B NMR

boron-"ate"

β-boronic ester

Synthesis of New Classes of Ionic Liquids and Polymeric Ionic Liquids and their Applications in Microextraction Techniques

Joshi, Manishkumar Dilipkumar

January 2013

No description available.

Analytical Chemistry

Chemistry

Glucaminium-based ionic liquids

Dispersive liquid-liqud microextraction

11B NMR

Solid-phase microextraction

extraction of boron

Chromophore Arylboronsäureester und ihr Komplexbildungsverhalten gegenüber Lewis-Basen

Oehlke, Alexander

14 December 2010

Die vorliegende Arbeit hat die Synthese und Charakterisierung von chromophoren Arylboronsäureestern mit besonderem Augenmerk auf einer breiten strukturellen Variation zum Inhalt. An dieser Verbindungsklasse wird die Wechselwirkung mit Lewis-Basen tiefgehend untersucht. Die Koordination von Lewis-Basen am Bor-Atom führt zu einer Beeinflussung der elektronischen Eigenschaften des borbasierten Substituenten, wobei der Charakter eines direkt am Bor-Atom gebundenen pi-Elektronensystems von pull zu push-pull geschaltet werden kann. In der vorliegenden Arbeit wird beschrieben, wie geometrische und elektronische Strukturmerkmale von boronsäureesterfunktionalisierten Chromophoren durch die Lewis-Säure-Base-Wechselwirkung am Bor-Atom beeinflusst werden. Die Veränderung von molekularen Eigenschaften wird mit Hilfe der UV/vis-Absorptions- und Fluoreszenzspektroskopie, 1H- und 11B-NMR-Spektroskopie sowie mit röntgendiffraktometrischen Methoden untersucht. Die experimentellen Daten werden durch quantenchemische Berechnungen auf DFT-Niveau unterstützt.

Arylboronsäureester

Borchromophore

Dichtefunktionaltheorie

Einkristall- Röntgenstrukturanalyse

elektrophile Substituentenkonstante

Fluoreszenzspektroskopie

Lewis-Basen

Lewis-Säure-Base-Komplexe

11B-NMR-Spektroskopie

physikalisch-organische Chemie

push-pull-Chromophore

Solvatochromie

Substituenteneffekte

UV/vis-Spektroskopie

arylboronic esters

boron compounds

density funtional theory

electrophilic substituent constant

fluorescence spectroscopy

lewis base

lewis acid-base-complex

11B-NMR-spectroscopy

physical organic chemistry

push-pull-chromophore

solvatochromism

substituent effects

UV/vis-spectroscopy

ddc:540

Borsäureester

Chromophor

Lewis-Addukt

Quantenchemie

UV-VIS-Spektroskopie

Chromophore Arylboronsäureester und ihr Komplexbildungsverhalten gegenüber Lewis-Basen

Oehlke, Alexander

28 October 2010

Die vorliegende Arbeit hat die Synthese und Charakterisierung von chromophoren Arylboronsäureestern mit besonderem Augenmerk auf einer breiten strukturellen Variation zum Inhalt. An dieser Verbindungsklasse wird die Wechselwirkung mit Lewis-Basen tiefgehend untersucht. Die Koordination von Lewis-Basen am Bor-Atom führt zu einer Beeinflussung der elektronischen Eigenschaften des borbasierten Substituenten, wobei der Charakter eines direkt am Bor-Atom gebundenen pi-Elektronensystems von pull zu push-pull geschaltet werden kann. In der vorliegenden Arbeit wird beschrieben, wie geometrische und elektronische Strukturmerkmale von boronsäureesterfunktionalisierten Chromophoren durch die Lewis-Säure-Base-Wechselwirkung am Bor-Atom beeinflusst werden. Die Veränderung von molekularen Eigenschaften wird mit Hilfe der UV/vis-Absorptions- und Fluoreszenzspektroskopie, 1H- und 11B-NMR-Spektroskopie sowie mit röntgendiffraktometrischen Methoden untersucht. Die experimentellen Daten werden durch quantenchemische Berechnungen auf DFT-Niveau unterstützt.

info:eu-repo/classification/ddc/540

ddc:540