Surface composition of cobalt catalysts for steam reforming of ethanol / Étude de la composition de la surface des catalyseurs à base de cobalt pour le reformage des vapeurs d'éthanol

Turczyniak, Sylwia

28 September 2016

L’objectif de cette thèse de doctorat a consisté à déterminer l’influence des conditions réactionnelles du vaporeformage de l’éthanol (ESR), de la dispersion du catalyseur et de la promotion par le potassium sur l’état de la surface. Ce travail a aussi aidé à comprendre l’influence de ces facteurs sur les propriétés catalytiques. Nous avons utilisé les catalyseurs à base de cobalt (promus et non promus par le potassium) supportés à l’oxyde de cérium et à l’oxyde de zirconium à faible et à forte dispersion. Les changements de l’état de la surface des catalyseurs pendant la réaction d’ERS ont été étudiés à travers la spectrométrie photoélectronique X (XPS), alors que les changements des produits ont été analisés en utilisant la spectrométrie de masse et la chromatographie en phase gazeuse. Le catalyseur supporté sur oxyde de cérium à forte dispersion a été caractérisé sous une basse pression (0.2-20 mbar) avec le rapport molaire eau/éthanol de 3/1 (420ºC). Les autres tests ont été faits sur tous les catalyseurs sous une pression totale de 1 atm avec les rapports molaires de 3/1, 9/1, 12/1 (420ºC). Nous avons utilisé un mélange eau/éthanol dans un rapport molaire de 12/1 pour étudier les changements de l’état de la surface de tous les catalyseurs dans le temps. Il a été démontré que la sélectivité d’ESR des catalyseurs pour produire des gaz et pour déposer le carbone est réglée par la concentration des groupes hydroxyles sur la surface. Quant aux catalyseurs promus, elle dépend aussi de la concentration Kδ+–Osurfδ-. / The aim of the thesis was determination the influence of the ethanol steam reforming (ESR) reaction conditions, catalyst’s dispersion and potassium promotion on a surface’s composition and understanding the influence of these changes on catalysts’ performance. Cobalt-based catalysts (unpromoted and promoted with potassium) with low- and high-dispersed ceria and zirconia supports were used. The changes of the surface state of catalysts during the ESR were studied by means of X-ray photoelectron spectroscopy, whereas the reaction products evolution was followed by mass spectrometer or gas chromatograph. Highly-dispersed ceria-supported catalyst was characterized under low pressure conditions (0.2–20 mbar) with the water/ethanol molar ratio equal to 3/1 (at 420ºC). The other tests were carried out over all catalysts under total pressure of 1 atm with 3/1, 9/1 and 12/1 molar ratios (at 420ºC). The water/ethanol ratio of 12/1 was chosen for studies of the surface state of all catalysts with time-on-stream. It was found that the ESR selectivity to gaseous products and carbon deposition is governed mainly by surface hydroxyl species concentration; in the promoted catalysts together with Kδ+–Osurfδ- surface sites.

Catalyseurs à base de cobalt

Oxyde de cérium

Oxyde de zirconium

Promoteur de potassium

Vaporeformage de l’éthanol

XPS

Cobalt catalysts

Ceria

Zirconia

Potassium promoter

Ethanol steam reforming

XPS

541.3

Ultracold Fermi mixtures and simultaneous sub-Doppler laser cooling of fermionic 6Li and 40K / Mélanges ultrafoids de Fermi et refroidissements laser sub-Doppler simultané de fermioniques 6Li et 40K

Sievers, Franz

21 July 2014

Ce travail rend compte de nouvelles techniques développées pour l'étude expérimentale de gaz ultrafroids de lithium et de potassium fermioniques. Les améliorations de notre expérience 6Li-40K y sont décrites et caractérisées. Nous présentons un laser solide de grande finesse capable d'émettre 5W de puissance à 671 nm. Nous utilisons cette source laser dans le contexte d'une nouvelle technique de refroidissement sub-Doppler, reposant sur la transition atomique D1 des atomes alcalins, pour refroidir des atomes de lithium. Cette melasse D1 nous permet de refroidir simultanément les atomes de 6Li et de 40K à des températures bien inférieures à la limite Doppler, tout en manipulant des grands nombres d'atomes à des densités importantes. Nous avons mesuré une densité dans l'espace des phases après l'étape de mélasse de l'ordre de 10-4 à la fois pour le 6Li et le 40K. Le refroidissement laser D1 ouvre la voie à une évaporation rapide vers la dégénérescence quantique dans un piège magnétique ou optique. Nous présentons le refroidissement évaporatif d'atomes de 40K. L'évaporation débute dans une piège magnétique pluggé et continue dans un piège dipolaire optique. A l'issue de l'évaporation, nous obtenons un mélange de spins dégénéré, avec plus de 7x105 atomes dans chacun des deux états de spin et une température T/TF<0.34. / This thesis reports on novel techniques for experimental studies of ultracold, fermionic lithium and potassium quantum gases. The new parts of our 6Li-40K apparatus are described and characterised. We present a narrow-linewidth, all-solid-state laser source, emitting 5W at 671 nm. We employ the laser source in the context of a novel sub-Doppler cooling mechanism, operating on the D1 atomic transition of alkali atoms, for laser cooling of lithium. This D1 molasses allows us to simultaneously cool a mixture of 6Li and 40K atoms to deep sub-Doppler temperatures, while retaining large atom numbers and high atomic densities. The measured phase space densities after the molasses phase are on the order of 10-4 for both 6Li and 40K. The D1 laser cooling paves the way for fast evaporation to quantum degeneracy in magnetic and optical traps. We present the evaporative cooling of 40K atoms. The evaporation starts in an optically plugged magnetic quadrupole trap and continues in an optical dipole trap. At the end of the evaporation, we obtain a quantum degenerate spin-mixture of 40K atoms, with more than 7x105 atoms in each of the two spin states and T/TF<0.34.

Mélange de fermions

Lithium-potassium

Refroidissement laser

Mélasses grises D1

Gaz quantiques dégénérés

Fermi mixtures

Lithium-potassium

539.7

Transports de Na+ et K+ chez le riz : caractérisation de transporteurs et co-transporteurs de Na+ et K+ de la famille HKT / K+ and Na+ transports in rice : characterization of Na+ and K+ transporters and co-transporters of the HKT family

Sassi, Ali

12 December 2011

Un prélèvement efficace de K+ à partir du sol est essentiel au développement des végétaux. Sur un sol riche en NaCl, le maintien d'un prélèvement sélectif et efficace de K+ à partir du sol et le contrôle de l'exportation de Na+ par la racine vers les feuilles constituent des fonctions essentielles pour la survie de la plante. Chez les plantes, les transporteurs HKT (High-affinity K+ Transporters) sont classés en deux sous-familles sur des bases phylogénétiques et de sélectivité ionique. Les membres de la sous-famille 1 transportent sélectivement Na+. Plusieurs d'entre eux ont été identifiés comme des acteurs majeurs de l'adaptation des plantes aux fortes salinités du sol en prévenant l'accumulation de Na+ dans les parties aériennes. Les membres de la sous-famille 2 co-transportent Na+ et K+. Leur rôle dans la plante, notamment dans le transport de K+, est encore mal compris. Je me suis intéressé à différents systèmes de transports de K+ et Na+, appartenant essentiellement à la famille HKT chez le riz. La caractérisation que j'ai effectuée a fait appel à plusieurs approches : électrophysiologie (voltage-clamp après expression en ovocyte de xénope), biologie cellulaire, génétique inverse et PCR en temps réel. L'analyse de l'expression par RT-PCR en temps réel de toute la famille HKT (4 membres dans chacune des deux sous-familles) a montré que ces transporteurs sont différemment exprimés au niveau des racines et des feuilles, et que leur niveau de transcrits est fortement et differentiellement régulé en conditions de stress salin ou osmotique et en présence d'hormones, ce qui suggère que ces différents systèmes jouent des rôles propres et diversifiés dans la plante. L'analyse plus détaillée d'OsHKT2;4, a montré par expression hétérologue dans l'ovocyte de xénope que ce système possède des propriétés fonctionnelles originales: il transporte sélectivement K+ à faibles concentrations de Na+, mais co-transporte Na+ et K+ à fortes concentrations de Na+ (>10 mM). L'analyse de l'expression d'OsHKT2;4 a révélé que ce transporteur est surexprimé en condition de carence en K+ et de stress salin, suggérant qu'OsHKT2;4 pourrait jouer un rôle important dans le transport de K+ dans ces deux conditions. Enfin, un patron d'expression nouveau pour un transporteur HKT a été révélé par l'analyse de plantes transgéniques exprimant le promoteur d'OsHKT2;4 fusionné aux gènes rapporteurs GUS ou GFP : en plus d'une localisation classique dans les tissus conducteurs, une forte expression est observée dans les stomates des gaines et des limbes foliaires, suggérant un rôle dans l'osmocontractilité de ces cellules.Mots clés: Oryza sativa, transport de potassium, transporteur HKT, Na+-K+ co-transporteur, électrophysiologie, ovocyte de xénope, localisation tissulaire, PCR quantitative, stress salin / Efficient uptake of K+ from the soil solution is essential for plant development. When plants are grown on a soil rich in NaCl, the maintenance of an efficient and selective uptake of K+ and the control of Na+ export from roots to shoots are crucial for plant survival. In plants, transporters belonging to the HKT (Highaffinity K+ Transport) family have been sorted in two subfamilies based on phylogenetic grounds and functional properties. Subfamily 1 members transport selectively Na+. Several of them have been shown to play major roles in plant adaptation to salt stress by preventing excessive accumulation of Na+ in shoots. Subfamily 2 members are thought to co-transport Na+ and K+, at least when expressed in heterologous systems. Their roles in planta, especially their potential role in K+ transport, are still largely unknown. I have been interested in different K+ and/or Na+ transport systems in rice, mostly belonging to the HKT family. For their characterization, different approaches have been used: electrophysiology (two-electrode voltage-clamp after expression in Xenopus oocytes), cell biology, reverse genetics and real-time PCR. Realtime RT-PCR analyses on the whole family of rice HKT transporters (4 members in both subfamilies) showed that the expression level in roots and leaves of these different systems is variable, and is differentially regulated by salt and osmotic stresses as well as by hormonal treatments, which suggests that these transporters have diverse and differentiated functions in the plant. A detailed analysis of OsHKT2;4 revealed original functional properties: this HKT transporter was indeed shown to be K+-selectively in the presence of low external Na+, but to switch to Na+ and K+ co-transport mode at high (>10 mM) Na+ concentrations. Expression analysis of OsHKT2;4 showed that this transporter is overexpressed upon salt stress and K+ shortage, which suggests that it could play an important role in K+ transport in these two conditions. At last, a new expression pattern for an HKT transporter was evidenced through the analysis of transgenic rice plants expressing OsHKT2;4 promoter fused to the GUS or GFP reporter genes: in addition to a classical localization in vascular tissues, expression of OsHKT2;4 was observed in stomata, suggesting a role for OsHKT2;4 in osmotic regulation in these cells

Oryza sativa

Transport de potassium

Transporteur HKT

Électrophysiologie

Stress salin

Ovocyte de xénope

Oryza sativa

Potassium transporter

HKT transporter

Electrophysiology

Salt stress

Xenopus oocytes

Real-time PCR

Glycosylation, Assembly and Trafficking of Cardiac Potassium Channel Complexes: A Dissertation

Chandrasekhar, Kshama D.

07 May 2010

KCNE peptides are a class of type I transmembrane ß-subunits that assemble with and modulate the gating and ion conducting properties of a variety of voltage-gated K+ channels. Accordingly, mutations that affect the assembly and trafficking of K+ channel/KCNE complexes give rise to disease. The cellular mechanisms that oversee KCNE peptide assembly with voltage-gated K+ channels have yet to be elucidated. In Chapter II, we show that KCNE1 peptides are retained in the early stages of the secretory pathway until they co-assemble with KCNQ1 K+ channel subunits. Co-assembly with KCNQ1 channel subunits mediates efficient forward trafficking of KCNE1 peptides through the biosynthetic pathway and results in cell surface expression. KCNE1 peptides possess two N-linked glycosylation sites on their extracellular N-termini. Progression of KCNE1 peptides through the secretory pathway can be visualized through maturation of N-glycans attached to KCNE1. In Chapter III, we examine the kinetics and efficiency of N-linked glycan addition to KCNE1 peptides. Mutations that prevent glycosylation of KCNE1 give rise to the disorders of arrhythmia and deafness. We show that KCNE1 acquires N-glycans co- and post-translationally. Mutations that prevent N-glycosylation at the co-translational site have a long range effect on the disruption of post-translational glycosylation and suggest a novel biogenic mechanism for disease. In Chapter IV, we determine the presence of an additional post-translational modification on KCNE1 peptides. We define specific residues as sites of attachment of this modification identified as sialylated O-glycans and show that it occurs in native cardiac tissues where KCNE1 plays a role in the maintenance of cardiac rhythm. Taken together, these observations demonstrate the importance of having correctly assembled K+ channel/KCNE complexes at the cell surface for their proper physiological function and define a role for the posttranslational modifications of KCNE peptides in the proper assembly and trafficking of K+ channel/KCNE complexes.

Potassium Channels

Voltage-Gated

KCNQ1 Potassium Channel

Glycosylation

Protein Transport

Amino Acids, Peptides, and Proteins

Genetic Phenomena

Inorganic Chemicals

Identification of Molecular Determinants that Shift Co- and Post-Translational N-Glycosylation Kinetics in Type I Transmembrane Peptides: A Dissertation

Malaby, Heidi L. H.

07 April 2014

Asparagine (N)-linked glycosylation occurs on 90% of membrane and secretory proteins and drives folding and trafficking along the secretory pathway. The N-glycan can be attached to an N-X-T/S-Y (X,Y ≠ P) consensus site by one of two oligosaccharyltransferase (OST) STT3 enzymatic isoforms either during protein translation (co-translational) or after protein translation has completed (post-translational). While co-translational N-glycosylation is both rapid and efficient, post-translational N-glycosylation occurs on a much slower time scale and, due to competition with protein degradation and forward trafficking, could be detrimental to the success of a peptide heavily reliant on post-translational N-glycosylation. In evidence, mutations in K+ channel subunits that shift N-glycosylation kinetics have been directly linked to cardiac arrhythmias. My thesis work focuses on identifying primary sequence factors that affect the rate of N-glycosylation. To identify the molecular determinants that dictate whether a consensus site acquires its initial N-glycan during or after protein synthesis, I used short (~ 100-170 aa) type I transmembrane peptides from the KCNE family (E1-E5) of K+ channel regulatory subunits. The lifetime of these small membrane proteins in the ER translocon is short, which places a significant time constraint on the co-translational N-glycosylation machinery and increases the resolution between co- and post-translational events. Using rapid metabolic pulse-chase experiments described in Chapter II, I identified several molecular determinants among native consensus sites in the KCNE family that favor co-translational N-glycosylation: threonine containing-consensus sites (NXT), multiple N-terminal consensus sites, and long C-termini. The kinetics could also be shifted towards post-translational N-glycosylation by converting to a serine containing-consensus site (NXS), reducing the number of consensus sites in the peptide, and shortening the C-termini. In Chapter III, I utilized an E2 scaffold peptide to examine the N-glycosylation kinetics of the middle X residue in an NXS consensus site. I found that large hydrophobic and negatively charged residues hinder co-translational N-glycosylation, while polar, small hydrophobic, and positively charged residues had the highest N-glycosylation efficiencies. Poorly N-glycosylated NXS consensus sites with large hydrophobic and negatively charged X residues had a significantly improved co-translational N-glycosylation efficiency upon conversion to NXT sites. Also in Chapter III, I adapted a siRNA knockdown strategy to definitively identify the OST STT3 isoforms that perform co- and post-translational N-glycosylation for type I transmembrane substrates. I found that the STT3A isoform predominantly performs co-translational N-glycosylation while the STT3B isoform predominantly performs post-translational N-glycosylation, in agreement with the roles of these enzymatic subunits on topologically different substrates. Taken together, these findings further the ability to predict the success of a consensus site by primary sequence alone and will be helpful for the identification and characterization of N-glycosylation deficiency diseases.

Asparagine

Consensus Sequence

Glycosylation

Kinetics

Membrane Proteins

Voltage-Gated Potassium Channels

RNA

Small Interfering

Dissertations, UMMS

Potassium Channels, Voltage-Gated

RNA, Small Interfering

Biochemistry

Molecular Biology

Organic Chemistry

Effect of Soil Test Values and Fertilization on Corn, Soybean and Wheat Tissue Phosphorus and Potassium Concentrations

Zone, Phoo Pye

22 July 2019

No description available.

Agronomy

Agriculture

Soil Sciences

Jämförelse av olika redox-titreringsmetoders valideringsparametrar / Comparison of different redox titration methods validation parameters

Segerlund Henriksson, Ella

January 2024

A fundamental analysis performed at LKAB is the determination of the iron (II) content of the company’s iron ore products. Currently, a redox titration method using potassium dichromate as the titrator is used to determine this content. However, LKAB is considering replacing its current method due to the titrator’s harmful effects on the health and the environment. The purpose of this study is to compare different redox titration methodsvalidation parameters, to find the most suitable method for the determination of the iron (II) content. The titrators in focus for this study is potassium dichromate, cerium (IV) sulphate and potassium permanganate. Several experiments were performed to compare the three titration methods. The validation parameters determined for each method were precision, accuracy, linearity, LOD, LOQ and robustness. The titration error was also calculated. The results showed that the redox titration with potassium dichromate as the titrator had the highest accuracy at 98.95 %, while the redox titration with cerium (IV) sulphate as the titrator had the best precision at 0.099 % (for samples with a similar matrix as LKAB’s iron ore products). Based on the acquired results, it was concluded that LKAB’s current method is the most suitable for the determination of the iron (II) content in LKAB’s iron ore products. The redox titration method using cerium (IV) sulphate as a titrator is a good competitor, butdue to the method’s slightly inferior accuracy and vague end point, it fails to outcompeteLKAB’s current method. / En grundläggande analys som utförs på LKAB är fastställandet av järn (II)-halten i företagets järnmalmsprodukter. För närvarande används en redox-titreringsmetod med kaliumdikromat som titrator för bestämmelsen av denna halt. LKAB överväger dock att byta ut sin nuvarande metod på grund av titratorns hälso- och miljöfarliga effekter. Syftet med denna studie är att jämföra olika redox-titreringsmetoders valideringsparametrar, för att hitta den mest lämpligaste metoden för fastställandet av järn (II)-halten. De titratorer som studeras är kaliumdikromat, cerium (IV) sulfat och kaliumpermanganat. Flertalet experiment utfördes, för att kunna jämföra de tre titreringsmetoderna med varandra. De valideringsparametrar som bestämdes för vardera metoden var precision, noggrannhet, linjäritet, LOD, LOQ och robusthet. Titrerfelet beräknades också. Resultaten visade att redox-titrering med kalimdikromat som titrator hade högst noggrannhet på 98,95 %, medan redox-titrering med cerium (IV) sulfat som titrator hade bäst precision på 0,099 % (för prover med liknande matris som LKAB:s järnmalmsprodukter). Utifrån de resultat som erhölls så drogs slutsatsen att LKAB:s nuvarande metod är den mest lämpligaste för fastställandet av järn (II)-halten i företagets järnmalmsprodukter. Redox-titreringsmetoden med cerium (IV) sulfat som titrator är en bra konkurrent, men på grund av metodens något sämre noggrannhet och otydligare slutpunkt så misslyckas den med att konkurrera ut LKAB:s nuvarande metod.

Cerium (IV) sulphate

iron (II)

potassium dichromate

potassium permanganate

redox titration

titration

Cerium (IV) sulfat

järn (II)

kaliumdikromat

kaliumpermanganat

redox-titrering

titrering

Natural Sciences

Naturvetenskap

Impacts and correction of potassium deficiency in no-till and strip-till soybean and corn production

Blocker, Shannon M.

January 1900

Master of Science / Department of Agronomy / David B. Mengel / This study was initiated to determine if potassium (K) deficiencies seen in soybeans (Glycine max (L.) Merr.) under no-till and strip-till production systems are impacting soybean yields, and if so, what fertilizer application practices including: rate of K application; broadcast or deep band methods of application; and the use of starter fertilizer at planting; could be used to correct the problem. The residual impacts of K fertilization and placement were also evaluated on corn (Zea mays L.) grown in rotation with soybeans. This research was conducted on-farm in cooperation with local producers. Soybeans sites in 2007 were near Harris, Ottawa and Westphalia, Kansas with corn planted in 2008 at the sites near Ottawa and Westphalia. Soybean sites in 2008 were located near Ottawa and Welda, Kansas. Selected sites were generally near or below the current soil test K critical level of 130 mg per kg extractable K, based on sampling histories provided by the cooperators. Sampling in the spring of 2007 confirmed these soil test (ST) K levels. Soybean leaf tissue potassium levels in 2007 were less than the critical level of 17 mg per kg in the unfertilized control plots, and were significantly greater when potassium fertilizer was deep banded or a high-rate of K fertilizer was broadcast. No significant difference in yield of soybeans due to K fertilization was seen, likely due to significant water stress during the grain fill period, which severely limited soybean yield in 2007. Soil test K levels at all the research sites increased dramatically between 2007 and 2008, even where no K was applied. Different weather conditions experienced these two years may have contributed to this occurrence. No residual impacts of K fertilization in 2007 on soybeans were seen in soil tests, corn leaf tissue K levels or corn yield in 2008. Soybean sites in 2008 also showed a dramatic increase in K ST levels in 2008 as compared to farmer records. No effects of K fertilization on soybean growth or yield were seen in 2008. The 2008 Ottawa soybean site had very low P soil tests. A significant response to P fertilization contained in the starter treatments was observed. This suggests that the dominant farmer practice of applying P and K fertilizer to corn, and not applying fertilizer directly to soybeans, even at low soil test levels, may not be supplying adequate P to soybeans, and is likely costing farmers yields and profits.

Potassium

Fertilizer placement

Soybeans

Residual fertilization

Deep band

Starter

Agriculture, Agronomy (0285)

Agriculture, Soil Science (0481)

Voltage-gating and assembly of split Kv10.1 channels

Tomczak, Adam

22 April 2016

No description available.

571.4

biophysics

potassium channels

voltage-gating

voltage-gated ion channels

Biologie (PPN619462639)

Ferroelectric Na0.5K0.5NbO3 as an electro-optic material

Blomqvist, Mats

January 2002

<p>Ferroelectrics are a group of advanced electronic materialswith a wide variety of properties useful in applications suchas memory devices, resonators and filters, infrared sensors,microelectromechanical systems, and optical waveguides andmodulators. Among the oxide perovskite-structured ferroelectricthin film materials sodium potassium niobate or Na0.5K0.5NbO3(NKN) has recently emerged as one of the most promisingmaterials in microwave applications due to high dielectrictunability and low dielectric loss. This licentiate thesispresents results on growth and structural, optical, andelectrical characterization of Na0.5K0.5NbO3 thin films. Thefilms were deposited by rf-magnetron sputtering of astoichiometric, high density, ceramic Na0.5K0.5NbO3 target ontosingle crystal LaAlO3 and Al2O3, and polycrystalline Pt80Ir20substrates. By x-ray diffractometry, NKN films on c-axisoriented LaAlO3 substrates were found to grow epitaxially,whereas films on hexagonal sapphire and polycrystallinePt80Ir20 substrates were found to be preferentially (00l)oriented. Optical and waveguiding properties of theNa0.5K0.5NbO3/Al2O3 heterostructure were characterized using aprism-coupling technique. Sharp and distinguishable transversemagnetic (TM) and electric (TE) propagation modes wereobserved. The extraordinary and ordinary refractive indiceswere calculated to ne = 2.216±0.003 and no =2.247±0.002 for a 2.0 μm thick film at λ = 632.8nm. This implies a birefringence Δn = ne - no =-0.031±0.003 in the film. The ferroelectric state inNKN/Pt80Ir20 films at room temperature was indicated by apolarization loop with polarization as high as 33.4 μC/cm2at 700 kV/cm, remnant polarization of 9.9 μC/cm2 andcoercive field of 91 kV/cm. Current-voltage characteristics ofvertical Au/NKN/Pt80Ir20 capacitive cells and planar Au/NKN/LaAlO3 interdigital capacitors (IDCs) showed very goodinsulating properties, with the leakage current density for anNKN IDC on the order of 30 nA/cm2 at 400 kV/cm. Rf dielectricspectroscopy demonstrated low loss, low frequency dispersion,and high voltage tunability. At 1 MHz NKN/LaAlO3 showed adissipation factor tan δ of 0.010 and a tunability of 16.5% at 200 kV/cm. For the same structure the frequencydispersion, Δεr, between 1 kHz and 1 MHz was 8.5%.</p><p><b>Key words:</b>ferroelectrics, sodium potassium niobates,thin films, rf-magnetron sputtering, waveguiding, refractiveindex, prism coupling, dielectric tunability</p>

ferroelectrics

sodium potassium niobates

thin films

rf-magnetron sputtering

waveguiding

refractive index

prism coupling

dielectric tunability