Monetary policy of interwar Czechoslovakia / Měnová politika v meziválečném Československu

Vít, Martin

January 2009

The diploma work charts the evolution of monetary policy of interwar Czechoslovakia in the context of development of domestic economy. It puts emphasis on the foreign relationships. The most important sources are materials from the archives of Czech National Bank and articles of foreign authors. The goal of work is to evaluate our monetary policy from several perspectives, such as the adequacy of the then economic situation, the impact of decisions of monetary authorities on individual national economic entities, and finally determining the most important persons of Czechoslovak monetary policy.

Analýza trhu drahých kovů a diamantů / Analysis of precious metals and diamonds

Suchánková, Veronika

January 2011

The main intention of this thesis is the analysis of the factors that influence the precious metals market according to the selected methodology. The secondary intention is the consideration of the posibility to include the commodities traded on the precious metals market in the portfolio of investments. The introductory chapter deals with the listing of the commodities, the most important commodity exchanges and derivatives. The second chapter individually describes the precious metals. The first subsection of the second chapter analyzes the supply and demand for the individual metals. The following subsections focus on the factors that influence the price of the precious metals in history and in present time. The analytical part, which concludes this chapter includes the calculations of correlation coefficients, average growth coefficient and standard deviation of the factors that influence the precious metals. The last chapter of this thesis is dedicated to diamonds and is divided to two major subsections. The first subsection describes the history of the most significant diamonds, the characteristics of diamonds, the types of the deposits and the major producers of diamonds. The second subsection analyzes the prices of natural and synthetic diamonds and the development of profit of the selected company in terms of time. The last chapter deals with investments in diamonds.

Incorporação de nanopartículas metálicas a polímeros conjugados: preparação, caracterização e utilização na fabricação de filmes nanoestruturados / Metal nanoparticles incorporated in conjugated polymers: preparation, characterization and use in the manufacture of nanostructured films

Rafaela Cristina Sanfelice

10 September 2014

O objetivo principal deste trabalho de doutorado foi a confecção de materiais híbridos formados a partir da união de nanopartículas de ouro com o polímero poli(3-hexiltiofeno) (P3HT). Os materiais híbridos foram obtidos através da produção de filmes de Langmuir e Langmuir-Schaefer (LS). Nanopartículas de ouro foram sintetizadas em fase aquosa (NpAu), utilizando o método de Turkevich e também, encapsuladas com 1-Octadecanotiol (NpAuOctatiol), apresentando solubilidade em clorofórmio. As NpAu foram utilizadas na subfase de uma cuba de Langmuir e o P3HT espalhado na interface ar/água. Ao transferir o filme de Langmuir formado para um substrato sólido, na forma de filme de Langmuir-Schaefer (deposição horizontal) foi possível obter um material híbrido contendo NpAu e P3HT. As NpAuOctatiol foram utilizadas para preparação de filmes LS híbridos através do espalhamento de soluções contendo uma mistura de P3HT com NpAuOctatiol com diferentes proporções. A presença das nanopartículas de ouro foi comprovada, principalmente, pelas imagens de MEV-FEG. Os filmes LS do P3HT apresentaram anisotropia ótica, permitindo inferir o tipo de orientação das moléculas tanto nos filmes de Langmuir como LS. A incorporação das nanopartículas de ouro no filme influencia na orientação do P3HT, bem como no processo fotodegradativo. Esses filmes foram utilizados em testes de sensibilidade para vapores de compostos orgânicos e água através de medidas de absorção da luz visível. Os filmes apresentaram sensibilidade apenas para três dos solventes testados: tolueno, THF e clorofórmio. Os filmes de P3HT apresentam comportamento eletrocrômico, e esse efeito pode ser observado através da aplicação de potencial por voltametria cíclica durante o registro do espectro de absorção no visível dos filmes. Comportamento eletrocrômico similar foi observado em todos os filmes LS, os quais apresentaram reversibilidade da cor inicial somente com a passagem do potencial inverso ou após certo tempo, o que não se observou para os filmes spin-coating, que apresentou recuperação da cor imediatamente após o potencial ser interrompido. Esse fato indica que o maior ordenamento dos filmes LS mantém a dopagem do filme por mais tempo, e que a presença das nanopartículas de ouro não altera essa propriedade. / The main aim of this doctorate work was the preparation of hybrid materials formed from the union of gold nanoparticles with the polymer poly (3-hexylthiophene) (P3HT). The hybrid material was obtained through the production of Langmuir and Langmuir-Schaefer (LS) films. Gold nanoparticles were synthesized in aqueous phase (AuNp) using the Turkvich method and encapsulated with 1-Octadecanethiol (AuNpOctathiol) with solubility in chloroform. The AuNp were used in the subphase of a Langmuir trough and the P3HT was spread at the air/water interface. When the Langmuir film was transferred, forming the Langmuir-Schaefer films (horizontal deposition), it was possible to get a hybrid material containing AuNp and P3HT. The AuNpOctathiol were used for the preparation of hybrid LS films through the spreading of a solution containing a mixture of P3HT and AuNpOctathiol with different proportions. The presence of gold nanoparticles has been demonstrated mainly by FEG-SEM images. The LS films of P3HT showed optical anisotropy, allowing to infer the type of orientation of the molecules in both Langmuir and LS films. The incorporation of gold nanoparticle in the film influenced the orientation of P3HT, as well as the process of photodegradation of LS films. These films were used in sensitivity tests for vapor of volatile organic compounds and water through measurements of visible light. The films showed sensitivity only for three of the tested compounds: toluene, THF and chloroform. P3HT films exhibited electrochromic behavior and this effect can be observed by applying potential through cyclic voltammetry during the registration of the absorption in the visible spectrum of the film. A similar Electrochromic behavior was observed in all LS films, showing reversibility of the initial color only with the passage of the reverse potential, or after a certain time. Such behavior was not observed in Spin-coating films, which showed recovery of the color immediately after stopping the potential. This fact indicates not only that greater order of LS films maintains the film doping, but also the presence of gold nanoparticles does not change this property.

Filmes de Langmuir

Nanopartículas de ouro

Politiofenos

Gold nanoparticles

Langmuir films

Polythiophenes

Ortho-substituted arylsilanes in oxidative gold catalysis

Robinson, Matthew Peter

January 2018

Organometallic compounds derived from tin, boron, and zinc, have been used extensively in transition metal-catalysed cross-coupling, and continue to hold status as the go-to reagents to form new carbon-carbon bonds. Recently, organosilicon compounds have emerged as an attractive alternative to these established reagents, benefitting from low toxicity, low cost, and general ease of handling. While the fundamental reactivity of arylsilane reagents (Ar-SiR3) is well known, their role in transition metal-catalysed reactions is generally less well studied. This thesis comprises an investigation into the effect of ortho-substitution of these arylsilane reagents, and specifically, their application in gold-catalysed direct arylation. In Chapter 2, the transmetalation of these reagents to gold(III) is assessed using a combination of in situ reaction monitoring coupled with kinetic simulations. This allowed a scale of reactivity to be constructed for a range of structurally diverse arylsilanes, and uncovered that more sterically hindered arylsilanes actually exhibit accelerated rates of transmetalation. In Chapter 3, the reactivity of ortho-substituted arylsilanes in gold-catalysed arylation is addressed. The majority of arylsilanes tested in the previous chapter were found to be unable to undergo coupling, despite the viability of transmetalation having been demonstrated. Slight modification of the ortho-substituent, to incorporate a tethered ligand, was found to have a dramatic effect on reactivity, and allowed the coupling of a variety of substrates. The nature of the ligand, as well as the substitution of the tether was found to have a significant impact on the rate of coupling. Chapter 4 describes the way in which the reactivity of ortho-substituted arylsilanes might be exploited in a 'Catch and Release' protocol for catalyst recovery. This aims to combine the established benefits of homogeneous and heterogeneous catalysis to offer an alternative to current methods of catalyst recycling in industrial chemistry. A number of different 'Catch and Release' mechanisms were considered, and the validity of the concept was demonstrated in a monophasic system.

Changes in floristic and functional composition on a complex of gold tailings dams near Carletonville, North West Province, from 1996 to 2014

Maguranyanga, Mike

January 2016

A research report submitted to the Faculty of Science, University of the Witwatersrand, in partial fulfilment of the requirements for the Degree of Master of Science by Coursework and Research Report. Johannesburg, March 2016. / A vegetation survey was carried out in July 2014 on the substrates of 5 tailings dams by selecting 10 sampling sites which were previously used as sampling plots during the 1996/97 survey of Weiersbye et al. (2006). At each sampling site a 100m transect horizontally across the substrate and covering all levels of the tailings dam from the flat top to the toe paddock was established. Each transect was surveyed for the frequency of the species occurring and these were categorized based on their mode of colonization (natural, intentionally introduced and persisting) while tailings were collected by digging approximately 20cm into the ground for soil sample collection per substrate. The recorded species were then divided using Raunkier’s classification categories into growth forms and a comparison was done between the two surveys (2014 versus 1996/7) to identify the species that were lost, those that were still persisting and the new ones that had colonized over time. A total of 51 species (over 15ha) in 36 genera within 14 families were recorded on the tailings dams, compared to 168 species (over 765ha), 98 genera and 59 families found in the previous study. Families with the most species in 2014 were similar to those of the 1996/97 survey, following the dominance order of Poaceae >Asteraceae >Fabaceae >Anacardiaceae, with the percentage frequency of grasses (Poaceae) noted to have almost doubled over this period. Compared to 6 species common across the substrates in the previous study, the later survey recorded 12 common species (6 of the species occurring on all substrates) but overall both studies found vegetation cover to be high (above 65%) on flat tops and berms with species richness being high on the toe paddock>slopes>tops and berms and substrates susceptible to low nutritional (N,P,K,C) value. Indigenous plant species (54.9%) were dominating the tailing dams and were mostly perennials (82.3%) that were naturally colonizing and persisting (72.5%) on the tailings dams (similar to the 1996/97 survey), while alien (45.1%) plant species comprised annuals/biennials (17.7%) that were intentionally introduced (27.5%) prior to the 1996/97 survey by contractors. The ceased ameliorative initiatives since the first survey are believed to have significantly contributed to a decrease in herbaceous species richness, which formed the majority of the introduced species in the former survey (58.8% compared to 29.4%) as they depended on the supplementary additions of fertilizers and lime. Approximately 117 species, 62 genera and 45 families (including Chenopodiaceae, which was dominant) were lost over the 17 years period, the majority of these were introduced prior to the 1996/97 vegetation survey, while only Ficus sp. was the only new species colonizing apart from the increase noted in alien species (some invasive in nature). The decrease in species richness has encouraged woody and semi-woody (35.3%) and grasses (35.3%) to dominate the slimes reaffirming their potential as temporal and long term rehabilitation species that have developed physiological tolerance to acidic conditions, salinity and heavy metal pollution. In conclusion, this study has identified the species that can be used for phytoremediation to provide long terms solutions for dust, air and water pollution and soil erosion suppression for rehabilitation of these contaminated lands (Appendix 8). The survey also helps to identify species that are able to naturally colonize and persist on the tailings dams without supplements, making them ideal economic species to use for rehabilitation. Results also highlight the negative impacts of the lack of ameliorative supplementations, which in turn affects the floristic composition and structure on these tailings dams over time. Keywords: Aerial cover, Macronutrients, Tailings dams, Species richness, Tailings Storage Facilities (TSFs) and Vegetation survey / LG2017

Tailings dams

Solid sample introduction by Slurry Nebulization ICP-OES for determination of PGMs,gold and base metals in different matrices

Ochieng, Levi

02 March 2007

Student Number : 0006342N - PhD thesis - School of Chemistry - Faculty of Science / An improved slurry method for determination of PGMs, gold and base metals (Ni, Cu, Fe and Co) using ICP-OES analytical instrument has been developed. This method has been successfully applied to quantitate metals in mineral concentrates and biological samples (grass, lichens, leaves and tree trunks) and validated using analytical figure of merit that include limits of detection, limits of quantition, accuracy and precision. Sample grinding using Fritsch GmbH Pulverissette Planetary Mono Mill was optimized to get > 60% and >80% of the particles to < 5.0 μm and < 10 μm respectively. The optimum grinding conditions for a sample mass of 0.4 g was determined as 130 rpm grinding speed and 30 minutes grinding time. An additional 15 minutes mixing with reagent was employed to ensure better slurry homogeneity for improved precisions. Five slurry dispersants; tetrasodium pyrophosphate, Triton X-100, dodecylbenzene sulfonic acid sodium salt, potassium cyanide and potassium thiocyanate, were evaluated at varied concentrations and 0.1% v/v Triton X-100 established as the best dispersant for slurry preparation. The ICP-OES sample delivery system was modified by introducing an extension elbow between the torch and the spray chamber that not only effectively reduced the sample residence time in the plasma for efficient atomization of the particles but also acted as a gravitational sieve eliminating larger particles and droplets. Prepared slurries were continuously agitated using an ultrasonic bath prior to and during aspiration into ICP-OES to prevent sedimentation and ensure constant stability of the slurry. Optimum operating conditions for ICP-OES established as 1600 W and 1450 W plasma power for PGMs and base metals respectively, using a nebulizer flow rate of 0.8 mL min-1, coolant gas flow rate of 13.0 mL min-1, auxiliary gas flow rate of 1.0 L min-1 with a sample uptake rate of 0.2 mL min-1. Limits of detection for the developed technique were determined in μg g-1 as 0.075, 0.039, 0.115, 0.071, 0.035 and 0.118 for Au, Ir, Pd, Pt, Rh and Ru respectively and 0.15, 0.391, 0.345 and 0.217 for Ni, Cu, Fe and Co respectively. Limits of quantitation in μg g-1 were obtained as 0.250, 0.130, 0.383, 0.237, 0.117 and 0.393 for Ir, Pd, Pt, Rh and Ru respectively and 0.5, 1.31, 1.15 and 0.723 for Ni, Cu, Fe and Co respectively. Good accuracy was recorded for all the base metals as well as for the platinum group metals and gold except iridium that was susceptible to copper interference. Two measurements of precision, reproducibility and repeatability were assessed. Reproducibility was obtained in percentages as 12, 7.93, 5.54, 10 and 12 for Au, Pd, Pt, Rh and Ru respectively and 9.9, 10, 9.8 and 10 for Ni, Cu, Fe and Co respectively. Repeatability was obtained in percentages as 11, 7.03, 4.94, 8.08 and 9.85 for Au, Pd, Pt, Rh and Ru respectively and 9.4, 9.6, 9.7 and 10 for Ni, Cu, Fe and Co respectively. Good percentage recoveries were obtained of 104.3%, 98.3%, 98%, 90.5% and 92.8% for Au, Pd, Pt, Rh and Ru respectively. Percentage recoveries of 109%, 111%, 89.9% and 100% for Ni, Cu, Fe and Co respectively were obtained. The simplicity and low cost of sample preparation used in this method enables it to be easily adopted in any ICP-OES laboratory. A single analyst may achieve more sample through-puts than before per day (including re-grinding and analysis), resulting in a highly economical and rapid technique for determination of metals.

slurry nebulization

ICP-OES

PGMs

gold and base metals

Liquefaction assessment and flume modelling of the Merriespruit gold and Bafokeng platinum tailings

Papageorgiou, George

January 2004

A thesis submitted to the Faculty of Engineering, University of the Witwatersrand, in fulfilment of the requirements of the degree of Doctor of Philosophy in Engineering / The thesis describes the determination of the steady state line for the Merriespruit gold and Bafokeng platinum tailings by means of triaxial undrained compression tests. It shows that there are numerous steady state lines for the above mentioned tailings products and thatthe location oftheirsteady state lines in void ratio- mean confining effective stress space is influenced by the percentage fines (particles smaller than 0.075mm) present in the tailings, among other factors. As the percentage fines increases so the steady state line for the particular material shifts downwards in void ratio- mean confining effective stress space. The difficulty of defining a unique steady state line for a particular fines content tailings, due to errors in measurement of initial size, mass, etc. and changes in void ratio due to flooding, saturation and consolidation of the moist tamped triaxial test samples is illustrated and it is recommended that error bands be assigned to the steady state lines. The steady state lines determined for the Merriespruit gold tailings and the concepts of liquefaction are combined with evidence obtained from the post failure investigation into the Merriespruit flow slide failure to prove the premise that the flow slide was as a result of static liquefaction failure of the tailings. It is also illustrated that the notion of using a single steady state line to evaluate the liquefaction susceptibility of a tailings dam is insufficient due to the particle size distribution of the tailings varying along the beach length of the tailings dam and the location of the steady state line being influenced by the percentage fines content. Flume modelling using the Merriespruit gold tailings were carried to obtain a qualitative understanding of the behaviour of flow slides. Comparisons between the flume model tests and the Merriespruit flow slide (prototype) showed that it is difficult to obtain a correlation between the two due to the influence of scale, different dominating forces in the model and prototype and the inherent variability associated with such geotechnical phenomena- particularly in the preparation and deposition of the tailings in the flume model. Keywords: liquefaction, steady state line, flow slide, failure, flume modelling, Merriespruit, Bafokeng, gold, platinum, tailings / AC 2018

Estudo e desenvolvimento de nanocompósitos contendo nanopartículas de ouro conjugadas com biomoléculas: síntese e aplicações em nanomedicina / Study and development of nanocomposites containing gold nanoparticles and biomolecules: synthesis and application in nanomedicine

Marangoni, Valeria Spolon

09 February 2012

A convergência entre a biotecnologia e a nanotecnologia tem levado ao desenvolvimento de novos nanobiocompósitos híbridos com funções sinérgicas que incorporam as propriedades de reconhecimento dos biomateriais com as propriedades eletrônicas, ópticas e catalíticas únicas das nanopartículas. Apesar do recente desenvolvimento na síntese de nanobiocompósitos, a aplicação biomédica destes materiais ainda apresenta muitos desafios, já que não apenas uma conjugação apropriada é requerida, mas também outros importantes aspectos relacionados à biocompatibilidade. O presente trabalho tem como objetivo expandir o campo da síntese e caracterização de nanoparticulas funcionalizadas com biomoléculas. Em especial, visamos o entendimento e caracterização das interações entre nanopartículas de ouro (AuNPs) e proteínas, por meio do estudo de dois sistemas distintos: AuNPs funcionalizadas com Jacalina, e AuNPs funcionalizadas com a proteína BeCen1. No primeiro sistema, o interesse advém da capacidade da lectina Jacalina de reconhecer o dissacarídeo (Gal&beta;1-3GalNAc) associado a tumores. Neste caso, AuNPs formadas na presença do dendrímero poli(amidoamina) geração 4.0 (PAMAM G4) foram conjugadas com a Jacalina marcada com o fluóroforo Isotiocianato de fluoresceína (FITC). A formação do complexo AuNP-PAMAM G4/Jacalina foi confirmada por Microscopia Eletrônica de Transmissão (TEM), Espalhamento de Luz Dinâmico (DLS), Espectroscopia de Absorção no UV-VIS e vibracional (FTIR). A interação entre as AuNP-PAMAM G4 e a Jacalina parece ser um processo dirigido por entropia com afinidade moderada e formação de complexo, segundo os resultados de Calorimetria de Titulação Isotérmica (ITC) e supressão da fluorescência. Os resultados de Dicroísmo Circular (CD) mostraram que a conjugação da Jacalina com as AuNP-PAMAM G4 não alterou sua estrutura secundária. Testes realizados em cultura de células revelaram que o complexo apresenta maior afinidade e citotoxicidade pelas células de carcinoma do colo de útero humano (HeLa) se comparadas com fibroblastos saudáveis de adipócitos de camundongo (L929). Estes resultados são relevantes uma vez que demonstram o potencial do complexo AuNP-PAMAM G4/Jacalina-FTIR para aplicações biomédicas incluindo diagnóstico e tratamento de câncer. O segundo sistema é interessante devido a habilidade da proteína BeCen1 em formar filamentos nanométricos em função da temperatura. As AuNPs foram formadas na presença da proteína utilizando ácido fórmico diluído como agente redutor e o excesso de proteína foi separado por Cromatografia de Exclusão Molecular. Análises de CD revelaram uma pequena diminuição no conteúdo de &alpha;-hélices, confirmado por FTIR, o que pode estar relacionado à interação das AuNPs com os grupamentos amida desta proteína. Medidas de espalhamento de luz revelaram um aumento da turbidez da suspensão do complexo AuNP-BeCen1 com o aumento da temperatura e imagens de TEM, com e sem aquecimento, confirmaram uma mudança de padrão no arranjo das AuNPs. Estes resultados revelam a possibilidade de fabricação de nanobiocompósitos termorresponsivos, o que pode ser muito importante para aplicações em nanodispositivos. / The convergence between biotechnology and nanotechnology has led to the development of new hybrid nanocomposites that conjugate the bio-recognization properties of biomaterials and the unique electronic, optic and catalytic properties of the nanoparticles. Despite the recent advances in the development of nanobiocomposites, the biomedical applications of these materials are still limited, among other factors, by the low efficiency of functionalization and biocompatibility. The present study was aimed at developing proteinconjugated nanoparticles for application in nanomedicine. Our main focus were the understanding and characterization of the interactions between proteins and gold nanoparticles (AuNPs), which was accomplished using two distinct systems, viz.: Jacalin-functionalized AuNPs, and Becen1-functionalized AuNPs. In the former, the interest is due the capability of the protein Jacalin of recognize the disaccharide (Gal&beta;1-3GalNAc), largely expressed in some tumors cells. AuNPs were synthesized in the presence of the polyamido amine generation 4.0 (PAMAM G4) and conjugated with a Jacalin target with the fluorescein isothiocyanate (FITC). The excess of protein was removed by centrifugation and the complex formation was confirmed by Transmission Electron Microscopy (TEM), Dynamic Light Scattering (DLS), UV-VIS Absorption and Vibrational Spectroscopy (FTIR). The interactions between AuNP-PAMAM G4 and Jacalin seemed to be driven by an entropic process with moderate affinity and complex formation, as revealed by Isothermal Titration Calorimetry (ITC) and quenching fluorescence measurements. Furthermore, Circular Dichroism (CD) analyses revealed that protein maintained its secondary structure upon conjugation with the nanoparticles. In vitro tests revealed that the AuNPs/Jacalin complexes presented higher affinity and cytotoxicity against human cervical cancer cell (HeLa) compared to healthy mouse fibroblasts (L929). These results are relevant, since the AuNP-PAMAM G4/Jacalin-FITC complex may be used for biomedical applications including cancer treatment and diagnostics. The second nanocomplex, comprising AuNPs and BeCen1, was chosen due to the ability of BeCen 1 to polymerize in the form of nanometric filaments as a function of temperature. The AuNPs were formed in the presence of the protein using diluted formic acid as reducing agent and the excess of protein was removed by Molecular Exclusion Chromatography. CD analysis showed a decrease in the -helix structures confirmed by FTIR, which may be related to the interaction between the AuNPs and the amide groups of the protein. Light scattering measurements revealed an increase in the turbidity of the dispersions upon increasing the temperature, indicating a change in the arrangement of the AuNPs. Such BeCen-1 induced alignment was confirmed by TEM images. The latter results point to the possibility of fabrication of novel thermoresponsive nanobiocomposites, which are of great relevance for nanodevices applications.

BeCen1

BeCen1

Gold nanoparticles

Jacalin

Jacalina

Nanobiocomposites

Nanobiocompósitos

Nanopartículas de ouro

Self-Assembled DNA Origami Templates for the Fabrication of Electronic Nanostructures

Gates, Elisabeth Pound

05 September 2013

An important goal of nanoscience is the self-assembly of nanoscale building blocks into complex nanostructures. DNA is an important and versatile building block for nanostructures because of its small size, predictable base pairing, and numerous sequence possibilities. I use DNA origami to design and fold DNA into predesigned shapes, to assemble thin, branched DNA nanostructures as templates for nanoscale metal features. Using a PCR-based scaffold strand generation procedure, several wire-like nanostructures with varying scaffold lengths were assembled. In addition, more complex prototype circuit element structures were designed and assembled, demonstrating the utility of this technique in creating complex templates. My fabrication method for DNA-templated nanodevices involves a combination of techniques, including: solution assembly of the DNA templates, surface orientation and placement, and selective nanoparticle attachment to form nanowires with designed gaps for the integration of semiconducting elements to incorporate transistor functionality. To demonstrate selective surface placement of DNA templates, DNA origami structures have been attached between gold nanospheres assembled into surface arrays. The DNA structures attached with high selectivity and density on the surfaces. In a similar base-pairing technique, 5 nm gold nanoparticles were aligned and attached to specific locations along DNA templates and then plated to form continuous metallic wires. The nanoparticles packed closely, through the use of a high density of short nucleotide attachment sequences (8 nucleotides), enabling a median gap size of 4.1 nm between neighboring nanoparticles. Several conditions, including hybridization time, magnesium ion concentration, ratio of nanoparticles to DNA origami, and age of the nanoparticle solution were explored to optimize the nanoparticle attachment process to enable thinner wires. These small, branched nanowires, along with the future addition of semiconducting elements, such as carbon nanotubes, could enable the formation of high-density self-assembled nanoscale electronic circuits.

DNA origami

nanofabrication

self-assembly

gold nanoparticles

Biochemistry

Chemistry

Uptake, translocation, and toxicity of gold nanorods in maize

Moradi Shahmansouri, Nastaran

01 December 2014

Nanomaterials are widely used in many different products, such as electronics, cosmetics, industrial goods, biomedical uses, and other material applications. The heavy emission of nanomaterials into the environment has motived increasing concern regarding the effects on ecosystems, food chains, and, human health. Plants can tolerate a certain amount of natural nanomaterials, but large amounts of ENMs released from a variety of industries could be toxic to plants and possibly threaten the ecosystem. Employing phytoremediation as a contamination treatment method may show promise. However a pre-requisite to successful treatment is a better understanding of the behavior and effects of nanomaterials within plant systems. This study is designed to investigate the uptake, translocation, bioavailability, and toxicity of gold nanorods in maize plants. Maize is an important food and feed crop that can be used to understand the potential hazardous effects of nanoparticle uptake and distribution in the food chain. The findings could be an important contribution to the fields of phytoremediation, agri-nanotechnology, and nanoparticle toxicity on plants. In the first experiment, hydroponically grown maize seedlings were exposed to similar doses of commercial non-coated gold nanorods in three sizes, 10x34 nm, 20x75 nm, and 40x96 nm. The three nanorod species were suspended in solutions at concentrations of 350 mg/l, 5.8 mg/l, and 14 mg/l, respectively. Maize plants were exposed to all three solutions resulting in considerably lower transpiration and wet biomass than control plants. Likewise, dry biomass was reduced, but the effect is less pronounced than that of transpiration and wet biomass. The reduced transpiration and water content, which eventually proved fatal to exposed plants, were most likely a result of toxic effect of gold nanorod, which appeared to physically hinder the root system. TEM images proved that maize plants can uptake gold particles and accumulate them in root and leaf cells. However, the translocation factor of gold nanorods from root to leaf was very low in this experiment. In the second experiment, maize seedlings were exposed to different (lower) concentrations of gold nanorods measured at 4.5x10-3 mg/l, 0.45 mg/l, and 2.25 mg/l for 10 days. Transpiration and biomass measurements demonstrated that the higher concentration of gold nanorods caused lower water uptake and growth, but lower concentrations did not show a significant toxic effect. According to ICP-MS results, root systems of the exposed plants were surrounded by high concentrations of sorbed nanorods, which physically interfered with uptake pathways and, thus, inhibited plant growth and nutritional uptake.

publicabstract

Gold nanorod

Maize

nano-agriculture

Phytoremediation

Civil and Environmental Engineering