Structure and atomic dynamics in condensed matter under pressure and Li-ion battery materials

2014 February 1900

The main goal of this research was to apply first-principles electronic structure calculations to investigate atomic motions in several condensed materials. This thesis consists of five separate but related topics that are classified into two main categories: structure of materials under pressure and Li ion dynamics in lithium battery materials. The atomic structure of liquid gallium was investigated in order to resolve a controversy about an anomalous structural feature observed in the x-ray and neutron scattering patterns. We explored the pressure effect when modifying the liquid structure close to the solid-liquid melting line. The atomic trajectories obtained from first-principles molecular dynamics (FPMD) calculations were examined. The results clarified the local structure of liquid gallium and explained the origin of a peculiar feature observed in the measured static structure factor. We also studied the structure of a recently discovered phase-IV of solid hydrogen over a broad pressure range near room temperature. The results revealed novel structural dynamics of hydrogen under extreme pressure. Unprecedented large amplitude fluxional atomic dynamics were observed. The results helped to elucidate the complex vibrational spectra of this highly-compressed solid. The atomic dynamics of Li ions in cathode, anode, and electrolyte materials - the three main components of a lithium ion battery - were also studied. On LiFePO4, a promising cathode material, we found that in addition to the commonly accepted one-dimensional diffusion along the Li channels in the crystal structure, a second but less obvious multi-step Li migration through the formation of Li-Fe antisites was identified. This discovery confirms the two-dimensional Li diffusion model reported in several Li conductivity measurements and illustrates the importance of the distribution of intrinsic defects in the enhancement of Li transport ability. The possibility of using type-II clathrate Si136 as an anode material was investigated. It was found that lithiated Si-clathrates are intrinsic metals and their crystal structures are very stable. Calculations revealed the charge and discharge voltages are very low and almost independent of the Li concentrations, an ideal property for an anode material. Significantly, migration pathways for Li ions diffusing through the cavities of the clathrate structures were found to be rather complex. Finally, the feasibility of a family of Li3PS4 crystalline and nanoporous cluster phases were studied for application as solid electrolytes. It was found that the ionic conductivity in the nanocluster is much higher than in crystalline phases. It is anticipated that the knowledge gained in the study of battery materials will assist in future design of new materials with improved battery charge and discharge performance.

atomic dynamics

First-principles

molecular dynamics

Li-ion battery, pressure

Woman writing about women : Li Shuyi (1817-?) and her gendered project

Li, Xiaorong, 1969-

January 2000

This thesis examines the life and poetry collection of the woman poet Li Shuyi (1817--?) within the context of women's literary culture in late imperial China. In particular, the textuality of Li Shuyi's poetry collection Shuyinglou mingshu baiyong (One Hundred Poems from Shuying Tower on Famous Women) forms the centre of critical analysis, which aims to articulate her gendered intervention into representations of women's image in poetry. The thesis is organized into three interconnected sections: the reconstruction of Li Shuyi's life in order to provide a context to articulate her relationship to writing, a reading of Li Shuyi's self-preface to discuss her motivation to write, and critical analysis of poems according to the three thematic categories of "beauty, talent, and qing ." The thesis demonstrates how a woman author's self-perception leads to her becoming a conscious writing subject, and how this self-realization then motivates her to produce a gendered writing project.

Li, Shuyi, b. 1817.

Functional Polymer Electrolytes for Multidimensional All-Solid-State Lithium Batteries

Sun, Bing

January 2015

Pressing demands for high power and high energy densities in novel electrical energy storage units have caused reconsiderations regarding both the choice of battery chemistry and design. Practical concerns originating in the conventional use of flammable liquid electrolytes have renewed the interests of using solvent-free polymer electrolytes (SPEs) as solid ionic conductors for safer batteries. In this thesis work, SPEs developed from two polymer host structures, polyethers and polycarbonates, have been investigated for all-solid-state Li- and Li-ion battery applications. In the first part, functional polyether-based polymer electrolytes, such as poly(propylene glycol) triamine based oligomer and poly(propylene oxide)-based acrylates, were investigated for 3D-microbattery applications. The amine end-groups were favorable for forming conformal electrolyte coatings onto 3D electrodes via self-assembly. In-situ polymerization methods such as UV-initiated and electro-initiated polymerization techniques also showed potential to deposit uniform and conformal polymer coatings with thicknesses down to nano-dimensions. Moreover, poly(trimethylene carbonate) (PTMC), an alternative to the commonly investigated polyether host materials, was synthesized for SPE applications and showed promising functionality as battery electrolyte. High-molecular-weight PTMC was first applied in LiFePO4-based batteries. By incorporating an oligomeric PTMC as an interfacial mediator, enhanced surface contacts at the electrode/SPE interfaces and obvious improvements in initial capacities were realized. In addition, room-temperature functionality of PTMC-based SPEs was explored through copolymerization of ε-caprolactone (CL) with TMC. Stable cycling performance at ambient temperatures was confirmed in P(TMC/CL)-based LiFePO4 half cells (e.g., around 80 and 150 mAh g-1 at 22 °C and 40 °C under C/20 rate, respectively). Through functionalization, hydroxyl-capped PTMC demonstrated good surface adhesion to metal oxides and was applied on non-planar electrodes. Ionic transport behavior in polycarbonate-SPEs was examined by both experimental and computational approaches. A coupling of Li ion transport with the polymer chain motions was demonstrated. The final part of this work has been focused on exploring the key characteristics of the electrode/SPE interfacial chemistry using PEO and PTMC host materials, respectively. X-ray photoelectron spectroscopy (XPS) was used to get insights on the compositions of the interphase layers in both graphite and LiFePO4 half cells.

Polymer electrolyte

Li-battery

3D-microbattery

Functionalization

Polyether

Polycarbonate

Copolymer

Insights into the morphological changes undergone by the anode in the lithium sulphur battery system

Yalamanchili, Anurag

January 2014

In this thesis, the morphological changes of the anode surface in lithium sulphur cell, during early cycling, were simulated using symmetrical lithium electrode cells with dissolved polysulphides (PS) in the electrolyte. Electron microscopy (SEM) was used as the principal investigation technique to study and record the morphological changes. The resulting images from the SEM were analysed and discussed. The initial surface structure of the lithium anode largely influenced the ensuing morphological changes taking place through lithium dissolution (pits) and lithium deposition (dendrites) during discharge and charge respectively. The rate of lithium dissolution and deposition was found to be linearly proportional to the current density applied to the cell and the effect of cycling on the anode was proportional to the total charge of the cell in general in agreement with the expected reaction. The effect of self-discharge on the anode was also studied using photoelectron spectroscopy (XPS) in tandem with SEM. The results indicated that self-discharge, occurring in the form of corrosion of the anode SEI by PS reduction, was influenced by the altered morphology of the cell after cycling. The findings presented in this project can be understood as a preliminary description for the morphological changes in the anode and their influence in the performance of lithium sulphur battery, which can be further investigated by more advanced methods. / <p>Joint collaboration project between Scania CV AB and Uppsala University.</p>

Lithium sulphur batteries

Li anode

morphology

dendrites

pits

cycling

Organic Negative Electrode Materials For Li-ion and Na-ion Batteries

Oltean, Alina

January 2015

No description available.

organic materials

Li-ion batteries

Na-ion batteries

Arthur Bliss's emerging voice a study of two song cycles on texts by Li Po /

Johnson, Mary Ellen.

January 1900

Treatise (D.M.A.)--University of Texas at Austin, 2003. / Vita. Includes bibliographical references. Includes discography.

Le vocabulaire des idées dans le "trésor" de Brunet Latin

Messelaar, Petrus Adrianus.

January 1963

Thése--Amsterdam. / Without thesis statement.

A study of The Han Garden Collection : new approaches to modern Chinese poetry, 1930-1934 /

Jung, Woo-Kwang. Bian, Zhilin.

January 1997

Thesis (Ph. D.)--University of Washington, 1997. / Vita. Includes bibliographical references (leaves [144]-151).

Lisan lu xian zhi yan jiu 1928-1931 /

Huang, Gongbi.

January 1900

Thesis (M.A.)--Kuo li zheng zhi da xue, l972. / On double leaves. Includes bibliographical references (leaves 131-134).

Li Gonglin's Buddhist beliefs and his Lotus Society Picture an iconographic diagram of the bodhisattva path /

Pan, An-yi.

January 1997

Thesis (Ph.D.)--University of Kansas, 1997. / Co-Chairs: Chu-tsing Li; Marsha Weidner. Includes bibliographical references.