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

Design, Synthese und Untersuchung eines Membrantransporters für acetylierte Aminosäuren / Design, Synthesis and Investigation of a Membrane Transporter for Acetylated Amino Acids

Urban, Christian

January 2009

Im Rahmen dieser Arbeit wurde ein synthetischer Membrantransporter für acetylierte Aminosäurecarboxylate entworfen und hergestellt. Als Bindungsstelle für die Carboxylate wurde das Guanidiniocarbonylpyrrol-Motiv von Schmuck verwendet. In den Seitenarm des Pyrrols wurde ein L-Valinamid-Rest eingebracht, um die Möglichkeit zu zusätzlichen Wasserstoffbrückenbindungen zu bieten und gegebenenfalls Substrat- und Enantioselektivität zu erreichen. Zur Herstellung der Löslichkeit in unpolaren Medien wie dem Inneren der Zellmembran musste eine lipophile Gruppe eingebracht werden. Als löslichkeitsvermittelnder Rest wurde Tris-(Dodecyloxy)phenylmethylen ausgewählt, das drei lange unpolare Alkylreste trägt. Zusammengenommen ergab sich so ein Rezeptor für Oxo-Anionen und speziell für Aminosäurecarboxylate mit erhöhter Löslichkeit in organischen Medien. Somit war die Fähigkeit zu Membrantransport gegeben. In Kraftfeldrechnungen erhielt man die vermutliche Struktur des Rezeptor-Substrat-Komplexes, der eine Kombination aus einer Salzbrücke, Wasserstoffbrückenbindungen und einer Stapelwechselwirkung von Guanidinum-Kation, Benzylgruppe und ggf. aromatischem Rest des Aminosäuresubstrates aufweist. Nach erfolgreicher Synthese wurde in Extraktionsexperimenten die Fähigkeit des Rezeptors erprobt, Aminosäurecarboxylate aus einer wässrigen in eine organische Phase aus zu überführen. Man erhielt das beste Extraktionsvermögen für Ac-Trp-OH, gefolgt von Ac Phe OH und Ac Tyr OH. Es wurde eine neue Formel aufgestellt, mit der aus den pKS-Werten der Substrate und den Extraktionsdaten mit und ohne Rezeptor die Bindungskonstanten der Rezeptor-Substrat-Komplexe berechnet werden konnten. Die Größe der Bindungkonstanten entsprach der Reihenfolge Trp > Tyr > Phe ~ Val mit den höchsten Bindungskonstanten für das Tryptophanderivat mit 1.5*10E4 1/M. Zur Bestätigung der Bindungskonstanten wurden ITC-Messungen durchgeführt. Es wurden Messungen des Rezeptors in Chloroform mit den tert-Butylammoniumsalzen der acetylierten Aminosäuren Phenylalanin, Tyrosin und Valin durchgeführt. Für die Werte von Enthalpie und Entropie konnten bei dieser Auswertung konsistente Werte ermittelt werden. Die höchsten Werte der Enthalpie erhielt man für das Tyrosinderivat mit 3.7*10E3 cal/mol, gefolgt vom Phenylalaninderivat mit 2.8*10E3 cal/mol und Valinderivat mit 1.3*10E3 cal/mol. Diese Abstufung entspricht dem Einfluss des aromatischen Restes, der durch die Stapelwechselwirkung mit dem Guanidinium-Kation die Bindungswärme erhöht und durch den damit verbundenen engeren Komplex den Wert für die Entropie senkt. Für die Evaluierung des Transportvermögens wurden U-Rohr-Versuche verschiedener Art durchgeführt. Es wurde ein Gradient von pH 6 in der Ausgangsphase auf pH 8 in der Zielphase eingesetzt, wodurch der Rezeptor an der Grenzfläche zur Zielphase deprotoniert wurde, was zu gerichtetetem Transport führte. Es ergaben sich recht starke Unterschiede für die Fluxwerte der einzelnen Substraten, die der Reihenfolge Val > Phe > Ala > Trp > Tyr folgten. Dabei wurde das Valinderivat um den Faktor 17 schneller als das Tyrosinderivat befördert, mit dem recht hohen Flux von 1.11*10E-6 mol/m2*s, was nahe an den höchsten literaturbekannten Wert für acetylierte Aminosäuren heranreicht. Durch Verwendung gleicher Substratkonzentrationen in Start- und Zielphase konnte aktiver Transport nachgewiesen werden, d.h. Transport gegen das Konzentrationsgefälle. Die Triebkraft des Transportes war der Gradient von pH 6 auf pH 8 zwischen Ausgangs- und Zielphase, der durch den Symport von Substrat und einem Proton ausgeglichen wurde. Bei einem kompetitiven Versuch mit einer Mischung der verschiedenen Substrate in der Ausgangsphase wurden veränderte Fluxwerte und Selektivitäten festgestellt. Die neue Reihenfolge der Transportgeschwindigkeit war nun Trp > Phe > Val > Tyr > Ala, wobei die Fluxwerte fast durchgehend niedriger waren als im Einzelversuch. Die Veränderung der Werte erschließt sich bei Vergleich mit den thermodynamischen Daten aus den Extraktionsexperimenten. Bei direkter Konkurrenz um den Rezeptor wurden diejenigen Substrate mit den höchsten Bindungskonstanten bevorzugt, unabhängig von ihrer Transportgeschwindigkeit. Die schwächer bindenden Substrate wurden aus dem Komplex verdrängt und wiesen deswegen niedrigere Transportwerte auf. Der kompetitive Versuch ist somit eine stärkere Abbildung der Bindungsstärke und entspricht eher der Situation in einer realen Zelle. / Within the scope of this work a new membrane carrier for acetylated amino acids was designed and synthesized. For the binding site of the carboxylate the guanidinio-carbonylpyrrole motif by Schmuck was selected. In the pyrrole’s side chain an L-valinamide residue was introduced, to allow for additional hydrogen bonding and potentially achieve substrate- and enantioselectivity. For solubility in nonpolar media such as the inner part of the cell membrane a lipophilic group had to be introduced. Tris-(dodecyloxy)-phenylmethylene, which bears three long, nonpolar alkyl chains, was selected to procure the desired solubility. All in all this yielded a receptor for oxo-anions and especially for amino acid carboxylates with increased solubility in organic media. This design resulted in the ability for membrane transport. In force field calculations the probable structure of the receptor-substrate-complex was obtained. It showed a combination of a salt bridge, hydrogen bonds and pi-stacking between the guanidinium cation, the benzyl group and, if applicable, the amino acid’s aromatic residue. After the successful synthesis, extraction experiments were carried out to test the receptor’s ability to transfer amino acid carboxylates from an aqueous into an organic phase. The best extractability was attained for Ac-Trp-OH, followed by Ac-Phe-OH and Ac-Tyr-OH. A new equation was established to calculate the binding constants of the receptor-substrate-complexes with the known pKS-values of the substrates and the extraction data with and without receptor. The values of the binding constants followed the order Trp > Tyr > Phe ~ Val with the highest values for the tryptophane derivative with 1.5*10E4 1/M. To confirm the binding constants, ITC experiments were conducted. Measurements of the receptor in chloroform with the tert-butylammonium salts of the acetylated amino acids phenylalanine, tyrosine and valine were conducted.For the enthalpy and entropy consistent values could be determined. These were 3.7*10E3 cal/mol for the tyrosine derivative, 2.8*10E3 cal/mol for the phenylalanine derivative and 1.3*10E3 cal/mol for the valine derivative. This incrementation complies with the influence of the aromatic residue, which increases the binding heat by the pi-stacking and decreases the value of the entropy because of the resulting tighter complex. For the evaluation of the transport capabilities various U-tube experiments were conducted. A gradient from pH 6 in the source phase to pH 8 in the target phase was employed, which led to deprotonation of the receptor near the interface to the target phase, resulting in directed transport. There were quite strong differences for the substrates’ flux values, which followed the order of Val > Phe > Ala > Trp > Tyr. The valine derivative was transported 17 times faster than the tyrosine derivative, with a quite high flux of 1.11*10E-6 mol/m2*s. This is close to the highest literature-known value for acetylated amino acids. By employing analogous substrate concentrations in the source and target phase, active transport, that is transport against the concentration gradient, could be achieved. The driving force of the transport was the gradient from pH 6 to pH 8 between the source and target phase, which was diminished by the symport of substrate and a proton. In a competitive experiment with a mixture of the various substrates in the source phase different values for flux and selectivity were found. The new order of the transport velocities was now Trp > Phe > Val > Tyr > Ala. Nearly all of the flux values were lower than before. The change of the values can be explained by the comparison with the thermodynamic data from the extraction experiments. With direct competition for the receptor, the substrates with higher binding constants were preferred, independent of their transport velocity. The substrates with weaker binding were expulsed from the complex and now showed lower transport values. The competitive transport experiment is therefor a better depiction of the binding strength and comes closer to the situation in a real cell.

Molekulare Erkennung

Guanidiniumverbindungen

Aminosäurentransport

Flüssig-Flüssig-Extraktion

Membrantransport

Supramolekulare Chemie

Organische Synthese

Pyrrolderivate

Naturstoffchemie

Adiabatische Kalorimetrie

UV-VIS-Spektroskopi

ddc:540

Tuning the electronic and structural properties of cerium oxide nanoparticles for the H2 production photocatalytic reaction / Controle das propriedades estruturais e eletrônicas de nanopartículas de óxido de cério para a reação fotocatalítica de produção de H2

Thill, Alisson Steffli

January 2018

The photocatalytic water splitting reaction showed to be a promising process to obtain renewable and clean energy, but the efficiency reached in this process is still low and must be improved to be viable. Considering this, the research on improving the efficiency of photocatalysts has attracted a strong interest in the past last years. Cerium oxide (CeO2−, 0 < x < 0.5) is a material recently investigated as a possible photocatalyst to obtain H2 from H2O. In this work, cerium oxide nanoparticles with high surface area (104 < S < 201 m2/g), high pore volume (32 < V < 132 mm3/g) values, wide range of diameter (2 < d < 90 nm) and O vacancies population (0.05 < x < 0.46) were applied to the H2 production photocatalytic reaction. The nanoparticles presented activity of up to 10 times higher than the commercial cerium oxide standard. UV-Vis, X-ray Diffraction, X-ray Absorption Spectroscopy, X-ray Photoelectron Spectroscopy, Ultraviolet Photoelectron Spectroscopy and Fourier Transform Infrared measurements were performed aiming to elucidate these results and to determine the main structural and electronic properties that can improve the H2 production photocatalytic reaction. It was obtained that the band gap energy depends on the nanoparticle synthesized and can be as low as 2.73 eV. The Ce 4f orbital occupation and the structural disorder presented by the nanoparticles is directly related with the band gap energies obtained. Density Functional Theory (DFT) calculations were performed to obtain the relation between the band structure (DOS) and the O vacancy population in order to explain the dependence of the band gap energy with the Ce 4f orbital occupation. Moreover, the O vacancies population at the surface have a very different effect depending on the presence or absence of mesopores, where a lower O vacancy population at the surface is better (worse) to the photocatalytic activity in the presence (absence) of mesopores. Furthermore O vacancies population at the surface plays a more fundamental role on the photocatalytic activity than the band gap energies for the samples presenting mesopores. The results allowed shedding light on the improvement of the properties of cerium oxide nanoparticles applied to optimize the H2 production photocatalytic activity.

Nanoparticulas

Produção de hidrogênio

Óxido de cério

Teoria do funcional de densidade

Espectroscopia de absorção de raios-x

H2 production

Rietveld

UV-Vis

UPS

XPS

XAS

DFT

Cerium oxide

Computational Studies of ThDP-Dependent Enzymes

Paulikat, Mirko

18 December 2018

No description available.

540

Thiamin Diphosphate

Pyruvate Decarboxylase

Phosphoketolase

Transketolase

UV-vis

QM/MM

Incremental Approaches

Excited State Analysis

Electronic Absorption Spectroscopy

Chemie  (PPN62138352X)

Desenvolvimento de metodologias espetroscópicas multivariadas para quantifação de fármacos em formas farmacêuticas.

Cordeiro, Gilcélia Aparecida

25 May 2016

Dissertação apresentada como requisito parcial para à obtenção do grau de Mestre em Química no Curso de Pós-Graduação em Química, Setor de Ciências Exatas, Universidade Federal do Paraná. Orientador: Prof. Dr. Patricio G. Peralta-Zamora. 2006 / Submitted by Nilson Junior (nilson.junior@unila.edu.br) on 2016-05-25T20:59:32Z No. of bitstreams: 2 Dissertação Gilcélia Cordeiro.pdf: 1411855 bytes, checksum: 33927381684c7c85ff44e446611d8891 (MD5) Recibo Deposito Legal_TESE_Gilcéia Aparecida Cordeiro.pdf: 229315 bytes, checksum: 6555acb6430c7e757d89b1cb6e13b523 (MD5) / Made available in DSpace on 2016-05-25T20:59:47Z (GMT). No. of bitstreams: 2 Dissertação Gilcélia Cordeiro.pdf: 1411855 bytes, checksum: 33927381684c7c85ff44e446611d8891 (MD5) Recibo Deposito Legal_TESE_Gilcéia Aparecida Cordeiro.pdf: 229315 bytes, checksum: 6555acb6430c7e757d89b1cb6e13b523 (MD5) Previous issue date: 2006 / Este trabalho é um exemplo do uso de ferramentas de calibraçăo multivariada(regressăo dos mínimos quadrados parciais, PLSR) na quantificaçăo desulfametoxazol (SMZ) e o trimetoprim (TMP) em formas farmacęuticas, utilizando-se espectroscopia de absorçăo no ultravioleta-visível (UV-Vis) e espectroscopia no infravermelho por refletância difusa (DRIFTS). Estudos preliminares permitiram constatar a inconvenięncia dos processos decalibraçăo univariados, em razăo da interferęncia espectral observada naespectroscopia UV-Vis e da extrema complexidade dos sinais de DRIFT. Modelos multivariados foram desenvolvidos a partir de espectros originais(UV-Vis), registrados entre 190 e 330 nm, e pré-processados por derivaçăoalisamentoe autoescalonamento. Os melhores resultados foram conseguidos commodelos desenvolvidos a partir de espectros originais, envolvendo o uso de oitovariáveis latentes (VLs). Nestas condiçőes, os parâmetros avaliados na validaçăoforam realizados a partir de cinco misturas sintéticas, evidenciando erros de previsăoinferiores a 3%, para ambas espécies em estudo. Na análise de medicamentos,algumas inconsistęncias foram observadas, principalmente devido á modificaçăo dosinal espectral em funçăo de variaçőes de pH, estas últimas originadas,provavelmente, pela presença de excipientes diferenciados. Nos estudos envolvendo DRIFT, modelos multivariados foram desenvolvidosem diversas regiőes espectrais e utilizando-se diversos sistemas de préprocessamentode sinais. Na fase de validaçăo, os melhores resultados foramconseguidos com modelos elaborados entre 7001 e 399 cm-1, empregando-se 8variáveis latentes e o sistema de correçăo multiplicativa de sinal (MSC). Nestas condiçőes, erros de previsăo inferiores a 5% foram obtidos para ambas espécies emestudo. Na análise de medicamentos, resultados insatisfatórios foram obtidos,principalmente devido á modificaçőes espectrais introduzidas pela presença deexcipientes. O efeito da presença destas espécies foi demonstrado por análise decomponentes principais (PCA).De maneira geral, os resultados demonstram uma boa capacidade preditivados modelos multivariados fundamentados em ambos tipos de espectroscopia. Paraa análise de medicamentos, entretanto, há necessidade de se considerar a presençade excipientes, os quais deverăo ser modelados junto com os fármacos de interesse.

Farmácia - Pesquisa

Análise de medicamento

Synthesis and characterisation of ZnO nanoparticles.An experimental investigation of some of their size dependent quantum effects

Jacobsson, T. Jesper

January 2010

<p>ZnO nanoparticles in the size range 2.5–7 nm have been synthesised by a wet chemical method where ZnO particles were grown in basic zinc acetate solution. The optical band gap increases when the size of the particles decreases. An empirical relation between the optical band gap given from absorption measurements, and particle size given from XRD measurements has been developed and compared to other similar relations found in the literature.</p><p>   Time resolved UV-Vis spectroscopy has been used to follow the growth of particles in situ in solution. The data show that the growth mechanism not can be described by a simple Oswald ripening approach and nor by an exclusive agglomeration of smaller clusters into larger particles. The growth mechanism is more likely a combination of the proposed reaction themes. The data also reveal that particle formation do not demand a heating step for formation of the commonly assumed initial cluster Zn₄O(CH₃COO)₆.</p><p>   Steady state fluorescence has been studied as a function of particle size during growth in solution. These measurements confirm what is found in the literature in that the visible fluorescence is shifted to longer wavelengths and loses in intensity as the particles grow. Some picosecond spectroscopy has also been done where the UV fluorescence has been investigated. From these measurements it is apparent that the lifetime of the fluorescence increases with particle size.</p><p>    The phonon spectrum of ZnO has been studied with Raman spectroscopy for a number of different particle sizes. From these measurements it is clear that there is a strong quenching of the phonons due to confinement for the small particles, and the only clearly observed vibration is one at 436 cm^-1 which intensity strongly increases with particle size.   </p>

ZnO

nanoparticles

quantum dots

Sol-gel

Time resolved UV-Vis spectroscopy

fluorescence

Raman

Phonon spectrum

Synthesis

XRD

Materials chemistry

Materialkemi

Inorganic chemistry

Oorganisk kemi

Boron-doped Diamond Sensors for the Determination of Organic Compounds in Aqueous Media

Hess, Euodia

January 2010

<p>In electrochemical oxidation treatment of wastewater, the electrode material is an important parameter in optimizing oxidative electrochemical processes, since the mechanism and products of several anodic reactions are known to depend on the anode material. The electrochemical oxidation of benzaldehyde, nitrobenzene and m-cresol on bare boron-doped diamond (BDD) electrode was investigated. Cytochrome c was then electrochemically immobilsed onto the functionalized BDD electrode by cyclic voltammetry. Oxidation and reduction reaction mechanism of each flavonoid was studied. There was one oxidation and reduction peaks for quercitin and catechin respectively, and two oxidation and two reduction peaks for rutin. The cytochrome c modified BDD electrode showed good sensitivity for all three flavonoids and low detection limits i.e. 0.42 to 11.24 M as evaluated at oxidation and reduction peaks, respectively.</p>

Boron-doped diamond (BDD) electrode

Benzaldehyde

Nitrobenzene

m-cresol

Quercitin

Catechin

Rutin

Cyclic Voltammetry

Electrochemical Impedance Spectroscopy

UV/Vis spectrosopy.

Fused Arenes-Based Molecular and Polymeric Materials for Organic Field Effect Transistors

Irugulapati, Harista

01 May 2013

In the past decade, tremendous progress has been made in organic field effecttransistors. Fused oligothiophenes and anthracene molecules are fascinatingmacromolecules having unique optoelectronic properties. These compounds are successfully employed as active components in optoelectronic devices including field effect transistors. Our goal is to design and synthesize conjugated molecular materials, which are highly functionalized through structural modifications in order to enhance their electronic, photonic, and morphological properties. The main desire is to synthesize novel organic fused-arenes having efficient charge carrier mobilities, as well as to optimize optical properties for organic field effect transistors (OFETs). Novel series of fused arene molecules of 9,10-di(thiophen-3-yl)anthracene (1), trans-2,5-(dianthracene-9- vinyl)thiophene (2), trans-5,5’-(dianthracene-9-yl)vinyl)- 2,2’-bithiophene (3), 5,5’-di(2 thiophene)-2,2’-bithiophene (4) , 9,10-(divinyl)anthracene core with 1- phenylcarboxypyrene (6) and polymers of poly(anthracene-co-bithiophene) (5) and poly(anthracene) (7) have been synthesized as promising materials for organic field effect transistors (OFETs). These compounds were confirmed and characterized by 1H-NMR, FT-IR, and elemental analysis. Their optical, thermal, and electronic properties were investigated using UV-Vis and photoluminescence spectroscopy, and thermogravimetric analysis respectively. Future studies will focus on evaluating OFETs performance of these material.

Thermo Gravimetric Analysis

UV-Vis Spectroscopy

Florescence Spectroscopy

Melting Point

Field-Effect Transistors

Organic Semiconductors

Organic Electronics

Polymers-Electric properties

Chemistry

Organic Chemistry

Physical Chemistry

Polymer Chemistry

Synthesis and characterisation of ZnO nanoparticles.An experimental investigation of some of their size dependent quantum effects

Jacobsson, T. Jesper

January 2010

ZnO nanoparticles in the size range 2.5–7 nm have been synthesised by a wet chemical method where ZnO particles were grown in basic zinc acetate solution. The optical band gap increases when the size of the particles decreases. An empirical relation between the optical band gap given from absorption measurements, and particle size given from XRD measurements has been developed and compared to other similar relations found in the literature.    Time resolved UV-Vis spectroscopy has been used to follow the growth of particles in situ in solution. The data show that the growth mechanism not can be described by a simple Oswald ripening approach and nor by an exclusive agglomeration of smaller clusters into larger particles. The growth mechanism is more likely a combination of the proposed reaction themes. The data also reveal that particle formation do not demand a heating step for formation of the commonly assumed initial cluster Zn4O(CH3COO)6.    Steady state fluorescence has been studied as a function of particle size during growth in solution. These measurements confirm what is found in the literature in that the visible fluorescence is shifted to longer wavelengths and loses in intensity as the particles grow. Some picosecond spectroscopy has also been done where the UV fluorescence has been investigated. From these measurements it is apparent that the lifetime of the fluorescence increases with particle size.     The phonon spectrum of ZnO has been studied with Raman spectroscopy for a number of different particle sizes. From these measurements it is clear that there is a strong quenching of the phonons due to confinement for the small particles, and the only clearly observed vibration is one at 436 cm-1 which intensity strongly increases with particle size.

ZnO

nanoparticles

quantum dots

Sol-gel

Time resolved UV-Vis spectroscopy

fluorescence

Raman

Phonon spectrum

Synthesis

XRD

Materials chemistry

Materialkemi

Inorganic chemistry

Oorganisk kemi