Electrochemical generation of ozone on antimony and nickel doped tin oxide

Wang, Yunhai, 王云海

January 2006

published_or_final_version / abstract / Chemistry / Doctoral / Doctor of Philosophy

Ozone.

Antimony.

Stannic oxide.

Electrodes.

Carbon-based negative electrode materials for rechargeable lithium batteries

Perkins, Mark James

January 2000

No description available.

541

Coke; Fibres; Electrodes; Composites

A tribological study of arced sugar cane mill roll shells in Jamaica

Oliver, Gossett Dunn

January 2003

No description available.

621

Chromium carbon and manganese electrodes

Electron microscope studies of sodium intercalation in titanium disulphide

Ngo, G-P.

January 1984

No description available.

530.41

Solid electrodes][Intercalation battery

Ion-selective electrode dynamics for improved pH control

Guy, Nicholas J. H.

January 1997

No description available.

660

Continuous pH control; Electrodes

Development of enzyme based sensors for use in neurochemistry

Berners, Manfred Otto Maria

January 1995

No description available.

541

Characterization of platinum-group metal nanophase electrocatalysts employed in the direct methanol fuel cell and solid-polymer electrolyte electrolyser

Williams, Mario

January 2005

This study investigated the applicability of various analytical tools for the qualitative and quantitative characterization of nanophase electrocatalysts.

Electrocatalysis

Nanotechnology

Fuel cells. Electrodes

Spinal cord stimulation with implanted epidural paddle lead relieves chronic axial low back pain

David A. Stidd, Rivero, Sergio, Weinand, Martin

08 1900

UA Open Access Publishing Fund / Introduction: Spinal cord stimulation (SCS) provides significant relief for lumbosacral radiculopathy refractory to both medical and surgical treatment, but historically only offers limited relief for axial low back pain (LBP). We aim to evaluate the response of chronic axial LBP treated with SCS using a surgically implanted epidural paddle lead. Materials and methods: This is a retrospective review of a consecutive series of patients with exclusive LBP or predominant LBP associated with lower extremity (LE) pain evaluated and treated with SCS using an implanted paddle lead within the dorsal thoracic epidural space. Baseline LBP, and if present LE pain, were recorded using the visual analogue scale (VAS) at an initial evaluation. At a follow-up visit (a minimum of 12 months later), LBP and LE pain after a spinal cord stimulator implantation were again recorded using the VAS. Patients were also asked to estimate total LBP pain relief achieved. Results: Patients with either exclusive (n=7) or predominant (n=2) axial LBP were treated with SCS by implantation of a paddle lead at an average spine level of T9. The baseline VAS score for LBP was 7.2; after a follow-up of 20 months, the score decreased to 2.3 (P=0.003). The LE pain VAS score decreased from 7.5 to 0.0 (P=0.103). Patients also reported a subjective 66.4% decrease of their LBP at follow-up. There were no surgical complications. Conclusions: Axial LBP is refractory to many treatments, including SCS. SCS using a surgically implanted paddle electrode provides significant pain relief for chronic axial LPB, and is a safe treatment modality

SCS

LBP

laminotomy

paddle electrodes

Etude expérimentale de la microstructure et des propriétés électriques et optiques de couches minces et de nanofils d'oxydes métalliques (d­­­­­­-Bi­2O3 et ZnO) synthétisés par voie électrochimique / Experimental study on the microstructure and the physical properties of the metallic oxide thin films and nanowires (delta-Bi­2O3 and ZnO) synthesized by electrodeposition

Laurent, Kévin

08 July 2008

L’intérêt porté sur la miniaturisation des systèmes par la communauté scientifique est grand, que ce soit pour des raisons de mobilité, d’économie d’énergie ou d’innovation technologique. L’objectif de cette thèse est de déterminer les caractéristiques physiques et structurales des couches minces et des nanofils d’oxydes métalliques synthétisés par la méthode électrochimique. La première partie de cette thèse est consacrée à l’oxyde de bismuth en phase delta. Les couches minces élaborés par électrochimie sont de très bonne qualité cristalline, et seul la phase delta- Bi2O3 est présente. Le caractère nano structuré des couches minces est mis en évidence par les expériences de microscopie électronique en transmission (MET) et participe à la stabilisation de cette phase à température ambiante. Les mesures de conductivité réalisées par spectroscopie d’impédance complexe montrent un comportement différent selon la nature du substrat utilisé. Nous observons une excellente conductivité électrique des dépôts réalisés sur les substrats en argent doré (4·10-3 S·cm-1), alors que les dépôts obtenus sur l’inox montre un comportement très résistif (10-7 S·cm-1). La seconde partie de cette étude concerne l’oxyde de zinc. Les conditions d’élaboration par électrochimie influence les propriétés structurales et physiques des couches minces obtenues. Les différents traitements thermiques réalisés sur les couches minces de ZnO ont permis d’améliorer la qualité optique des couches et de modifier la structure du ZnO par incorporation d’azote lors de recuit dans l’ammoniaque. La dernière partie est consacrée à la synthèse et à la caractérisation de nanofils de ZnO élaborés par la méthode « template ». Cette méthode nous a permis de confiner la croissance par électrochimie dans des pores de différents diamètres. Les observations réalisés par MET et MET en Haute Résolution montrent que les nanofils obtenus sont monocristallins et de bonne qualité. Les propriétés d’émission observées en PL sont très proches des propriétés d’émission des couches minces / The growing interest towards micro and nano devices has improved in the recent years. This interest arises from the need of mobility devices, energy savings or technologic innovation. The aim of the present work is to determine structural and physical properties of electrodeposited metallic oxide thin film and nanowires. The first part of this work will treat the case of bismuth oxide in delta phase. Electrodeposition method is used to stabilized the delta phase at room temperature, structure studies revealed a good cristallinity of the films and the high purity of the deposit. The stability of delta-Bi2O3 at room temperature is probably due to the nanostructuration of the deposit which had been observed in TEM experiments. The electrical behaviour of the film different from the substrate used to perform electrodeposition. We observed an excellent electrical conductivity (4·10-3 S·cm-1) from samples deposited on gilded silver, while low conductivity of the film is observed when deposit on stainless steel (10-7 S·cm-1). The second part of this work deal with zinc oxide thin film electrodeposited from aqueous solution. The experimental conditions used to perform electrodeposition have been found to influence structural and physical properties of the electrodeposited ZnO. Thermal treatment applied to electrodeposited ZnO improve the crystal quality and annealing under NH3 atmosphere at 400°C induced the formation of Zn:N bonds in the deposit. The last part of this report is related to the fabrication of ZnO nanowires using template method. This method has allowed us to restrict the growth of the ZnO into Nanopores. Observations made using TEM and HR-TEM, shows that electrodeposited nanowires are of a good crystal quality and monocrystalline. PL experiments have revealed that the emission is very close to the emission observed for the ZnO thin film

Delta-Bi2O3

ZnO

Electrodes position

Understanding two-phase reaction processes in electrodes for Li-ion batteries

Liu, Hao

January 2015

No description available.

540

Electrodes ; Lithium ion batteries