4^th Edition of International Conference on Polymer Science and Technology September 13- 14, 2018 Hotel Panorama Prague , Czech Republic

Biography:

Joanna Fiedor has received her PhD degree in Biochemistry from the Jagiellonian University, Kraków, Poland. During 1997-1999, she visited the Ludwig-Maximilians University (LMU) in Munich, Germany, and in 2002 the Kwansei Gakuin University, Sanda, Japan. Currently, she is an Assistant Professor at the AGH-University of Science and Technology, Kraków, Poland. Her research interests are focused on: natural biocompounds (carotenoids) in relation to human health, and biotechnological applications of phototrophic microorganisms. 

Abstract:

Purple non-sulphur phototrophic bacteria constitute a unique group of “photosynthetic” organisms capable of adjusting their metabolism in response to the alteration of environmental growth conditions. In the presence of light and absence of oxygen, bacterial cells develop extensive system of intracytoplasmic membranes, hosting entire “photosynthetic machinery”. It comprises different types of pigment-protein complexes involved in capturing and extremely effective conversion of light energy into chemical energy. Recently, purple bacteria have been gaining considerable attention due to their increasing potential in a range of scientific and industrial applications. In the present study two species of anoxygenically grown phototrophic bacteria were used. Following the isolation of their membranes, the components of the photosynthetic apparatus were separated and purified by the application of weak anion exchange chromatography. This chromatographic technique is characterized by relative simplicity, vast availability as well as high effectivenes of structure’s separation. Hence, it proved to be one of the most useful methods for isolation and purification of membrane as well as water-soluble proteins. Application of ion-chromatography resulted in preparation of a series of photosynthetic (pigment-) protein structures of adequate purity for spectrometric analysis. Here, total reflection X-ray fluorescence spectrometry (TXRF), one of the well-established spectroscopic techniques applied for the precise elemental profiling of organic and inorganic samples, was used to perform comprehensive examination of the elements present in bacterial proteins.

Biography:

Mr. Miroslav Ryska (1938) holds an undergraduate degree from Charles University, along with an M.S. in Physical Chemistry from Moscow State University and a PhD. from the Institute of Macromolecular Chemistry of Czechoslovak Academy of Sciences. From 1961 to 1978 he worked at the Institute of Macromolecular Chemistry of the Czechoslovak Academy of Sciences. In 1978 - 1997 he worked as a researcher in the field of MS and its application in research of metabolism and pharmacokinetics of drugs at the Research Institute for Pharmacy and Biochemistry in Prague. He has written more than 100 publications mainly on the topic of mass spectrometry, trace analyses, analyses of drugs, metabolites and quantitative analysis. In the 1990’s Mr. Ryska acted as an Editor of two international journals, The Journal of Mass Spectrometry and Rapid Communication in Mass Spectrometry. He founded Quinta-Analytica  s.r.o.in 1997

Abstract:

The source of the “Matrix effect” as a consequence of analyte ions suppression or ions enhancement must be sought in the presence of unknown impurities from matrix. They are participating in the complex ionization process in parallel or competing ion-molecular reactions. Not only impurities from extracts but impurities adsorbed in the ion source and/or in the analytical system may play an important role. These adsorbed substances cannot be fully removed from the system by any cleaning procedure.

To fully compensate for the negative impact of the “Matrix effect“, use of isotopically labeled internal standards (isotope dilution technique) proved to be the only effective technique. This applies especially to LC/MS/MS determination of drugs and 

their metabolites in complex extracts of biological matrices. The isotope dilution technique is successful regardless of the method of purification, the ionization technique (APCI or ESI) and the type of the equipment used. The isotope dilution technique proved to be 100% effective for the compensation of matrix effect influences in 181 analytical methods developed and validated. The strict requirements of EMA guidelines to investigate different plasma sources for the assessment of the matrix effect in the analytical method validation are discussed. 

Biography:

Abstract:

Bisphenols are a class of chemicals with two hydroxyphenyl functionalities, which include bisphenol A (BPA) and several analogues such as BPS, BPB, BPF, BADGE, BADGE•2H2O, and BADGE•2HCl. The release of BPA into the food depends on the type, pH and lipid content of food, temperature, and contact time. Due to their fat content, both breast and dietary milk could be polluted by many xenobiotics characterized by lipophilic properties. Milk and dairy products are widely consumed by infants, children, and many adults throughout the world, and occurrence of quantifiable amounts of BPA represents a matter of public health concern. European Commission (EU) has established a migration limit of 0.6 mg/kg for BPA in food or food simulant from plastic materials and articles intended to come in contact with foodstuffs (Regulation (EU) No. 10/2011) and has interdicted the BPA use in the fabrication of baby bottles (Regulation (EU) No.321/2011). Considering that many estrogenic effects caused by BPA occur at concentrations below the recommended safe daily exposure and that children are particularly vulnerable, a new risk assessment has been strongly recommended for consumer health protection.

The aim of the experiments was to determination of xenobiotics (BPA and its analogues, pesticides, dyes, medicines) in natural and biological samples (e.g., breast milk) and food products. Author proposed a rapid, efficient, and reliable method for extraction of different class/groups of xenobiotics from natural samples, based on modified QuEChERS procedure. The novelty of the experiments concern possibility of utilizing relatively new and innovative zirconium based sorbents (Z-Sep and Z-Sep Plus) for clean-up of analyzed extracts. Average recovery; repeatability and matrix effect were accounted for finally selected extraction conditions. Validation of the chromatographic methods (linearity, limits of detection (LODs) and quantification (LOQs)) was also carried out.

Biography:

Xiaolong Fu has obtained his PhD in Physical Chemistry from Institute of Chemistry, Chinese Academy of Sciences, in 2015. Then, he has joined the Institute of Nuclear Physics and Chemistry, China Academy of Engineering Physics. He mainly focused on the novel microporous and mesoporous materials and applications in hydrogen isotopes separations.

Abstract:

Hydrogen isotopes are most likely fuels of future nuclear fusion plants. And fast analysis of hydrogen isotopes is very important. Cryogenic gas chromatograph with capillary column is one of the best methods for analyzing hydrogen isotopes. Recently, significant progress has been made to shorten analysis time and realize on-line analysis by cryogenic gas chromatograph, with promising potential for application. However, due to the same chemical properties and the identical kinetic diameters, separation and quantitative analysis hydrogen isotopes is difficult by using their minute difference. Herein, we reported a new method in preparation of metal-organic frameworks capillary column via sol-gel process. Metal-organic frameworks thin film was uniformly coated on the inner wall of the capillary column and the hydrogen isotopes were separated within one minute.

Biography:

Károly Héberger Ph.D., Cand. Sci., D.Sc., t.Prof.. in his early carrier he investigated liquid phase oxidation (radical) processes, and determined rate constants by kinetic ESR spectroscopy. Later he studied Quantitative - structure activity (property) relationships. QSAR, QSPR and QSRR. Now he deals with chemometrics: multivariate data evaluation techniques, principal component analysis, stepwise linear regression, partial least squares regression, variable selection, model building and validation, pattern recognition (supervised and unsupervised), classification of food products, clustering, method comparison and ranking, etc. His scientific results were presented in more than 160 papers (including book chapters) and more than 300 lectures (or posters). Hirsch index=34 and i-10=index 83 (Web of Sci). The papers were cited above 3800 times (without self - citations and cross - references). More information can be found at: http://aki.ttk.mta.hu/scientist/heberger/

Abstract:

A lot of protocols have been elaborated for stationary phase selection, (further on column selection) in chromatography.^1-4

One of the earliest developed procedure was the Tanaka system¹: six selectivity parameters have characterized commercial packing column materials. Later, Euerby improved the system² and defined the Column Difference Factor (CDF).³ Snyder and Dolan have utilized five selectivity parameters and elaborated the so called hydrophobic-subtraction model with a cornerstone of column selectivity function (Fs).⁴ Hoogmartens et al. have applied only four selectivity parameters and defined the Fmetric.⁵ Their approach is known as KUL column selection system (CSS). All above approaches are empirical and all of them is based on measurement of some well-chosen reference compounds and calculation of Euclidean distance between the concerned and a reference column.

Our chemometric approach compares the column selection systems using some simple pattern recognition methods: (icon (polygon, radar or spider-web) plot and stacked plots. Ten similarity measures (Euclidean and Manhattan distance, Kendall tau, Spearman rho, Person’s correlation coefficient, generalized pair correlation methods with various statistical test options as e.g. Williams’ t test, conditional Fisher’s exact test, McNemar test, etc. have shown some contradictory behavior, still their data fusion allows us to compare and rank the column ranking systems.

A significant loss of information arises during the application of the hydrophobic-subtraction model.

We could not only rank and group the column classification protocols, but to select the most suitable similarity (or dissimilarity) measure for selection of the most similar and dissimilar i.e. orthogonal chromatographic system.

Work is under way to determine the smallest number of reference compounds responsible for all dominant interactions in chromatography and hence classification of chromatographic columns will be possible with the smallest efforts without having significant information loss.

Biography:

Abstract:

Statement of the Problem: Bisphosphonates (BPs) are chemically stable pyrophosphate analogues, and used to treat pathological conditions associated with bone mass loss. Radiolabeled BPs, which used as bone-seeking radiopharmaceuticals for imaging or therapy hold an important place in nuclear medicine, radiopharmaceuticals are radioactive drugs containing a pharmaceutical compound and a suitable radionuclide. While biologically active molecule or drug acts as a carrier and determines localization, the radionuclide permits external detection. FDA approved radiopharmaceuticals as drugs and it is mandatory to satisfy the guidelines for quality control tests which include the radiochemical, radionuclidic and chemical purity as well as checks for pharmaceutical concerns. In the past 10 years, separation and quality control methods such as radioactive thin layer chromatography (RTLC), high performance liquid chromatography (HPLC) and electrophoresis have widely used in radiopharmaceutical studies. In radiopharmaceutical research laboratories, it is important that the labeled compound is obtained in high yields. Radiolabeled agents may contain impurities like unlabeled radionuclide used for radiolabeling, with degradation products formed during oxidation or reduction of radionuclide and secondary complexes which should be formed during radiolabeling reaction. Thus, the estimation of impurities in the radiolabeled compounds is significant.99mTc-ibandronate sodium (99mTc-IBD), was developed and quality control studies were achieved by using RTLC and paper electrophoresis methods. For this purpose, different stationary and mobile phases were used and ideal TLC system conditions were developed. Furthermore, paper electrophoresis studies were performed for each formulation. 99mTc-IBD complex was prepared by using different reducing agent concentrations. Some parameters like effect of antioxidant agent and pH on labeling yield were also investigated. For quality control methods, Whatman 1 MM and 3 MM papers, silica gel (SG) coated fiber sheets and instant thin layer chromatography SG (ITLC-SG) plates were used as stationary phase and acetone, physiologic solution, methylethylketon, acetonitrile/water/ trifluoroacetic acid, butanol/ethanol/water solutions were used as mobile phases.

Biography:

M A Ebiad is an Assistant Professor, and Researcher of Physical Chemistry at Egyptian Petroleum Research Institute. Since the last three years he has been the Head of Gas Chromatography Lab, Analysis and Evaluation Department. He has active effort in the demonstrations of central lab for services. He has 20 research articles in different physical chemistry research area. He develops many gas chromatographic applications in the lab such as PVT study, geochemistry, trace analysis for sulfur and inverse gas chromatography. He also participate in three research projects using GC-MS: Project for biomarker for Suez Gulf region as a data base for Egyptian crude oil, supported by EPRI; STDF project “Finger printing of some Egyptian crude oil via GC-MS in relation to their biomarker” and; Gas analyzer MS (HIDDEN) in STDF project "The development of recent catalysts and membrane reactors for dry reforming of natural gas using CO₂

Abstract:

The distribution of alkylated polycyclic aromatic compounds (PACs) is highly variable in hydrocarbon mixtures. This is because the concentrations are controlled by both the nature of the source organic matter and the conditions of diagenesis/thermal maturation. Different organic matter sources yield bitumen’s with varying amounts of PACs and different patterns of alkylation. Aromatic fractions separated from seven different Egyptian crude oils, having different geological origins, were analyzed by gas chromatography– mass spectrometry (GC/MS) especially for the generated alkylnaphthalenes and alkylphenanthrenes. Naphthalene (N), methylnaphthalenes (MN), dimethylnaphthalenes (DMN), trimethylnaphthalenes (TMN) and tetramethylnaphthalenes (TeMN) has been identified in the m/z (128, 142, 156, 170 and 184) mass chromatograms. Phenanthrene (P), methylphenanthrene (MP), dimethylphenanthrene (DMP), and trimethylphenanthrene (TMP) isomers have been identified in the m/z (178, 192, 206 and 220) mass chromatograms. Ratios depending on the differences in the thermal stability of the isomers were applied (e.g. MPI, MPr, MNr, DMNr, TMNr2, etc.). The ratios of β-substituted to α-substituted isomers of both alkylnaphthalenes and alkylphenanthrenes revealed higher maturity of ND1 from Quassim formation in Nile Delta basin compared to other samples. WD1 oil samples from Faghur basin is characterized by a high abundance of 1,3,7- and 2,3,7-trimethylnaphthalenes (TMN) with (TMNr₂=1.154) and high Pristan/Phytan ratio (Pr/Ph=2.63) compared to WD2 from the same basin suggesting in-reservoir mixing of crude oils of different maturities.

Biography:

Adeyemi A Abati has completed his MBBS in 2004 at Obafemi Awolowo University Teaching Hospital Ile–Ife Nigeria, he was trained at the Department of Infectious Diseases during his residency and he provided several superior care and consultation that resulted in overall improvement of department patient’s satisfaction Quotient. He focused on patient’s treatment and re-evaluated several methods of therapy management dependent on infection types tailored to patient’s individual patient history and efficacy of previous treatments. He completed is Master’s degree in Public Health at the same institution. He has been practicing in Department of Infectious Disease at Lagos University Teaching Hospital, one of the top three infection disease hospital in Nigeria and also doing his PhD at the moment. He holds certifications from Nigerian Board of Internal Medicine for Hematology and Infectious Disease and also awarded the Ward of the Developing Leader in Medicine from Nigerian Medical Association, in 2010 for his excellent contribution towards the general treatment reduction of infectious disease in Nigeria

Abstract:

In Nigeria, Hepatitis C virus (HCV) infection is primarily spread through injection drug use. There is an urgent need to improve access to care for HCV among persons with opioid use disorders who inject drugs. The purpose of our study was to determine the prevalence of HCV, patient characteristics, and receipt of appropriate care in a sample of patients treated with buprenorphine for their opioid use disorders in a primary care setting. This study used retrospective clinical data from the electronic medical record. the study population included patients receiving buprenorphine in the office based opioid treatment (Obot) clinic within the adult primary medicine clinic at Lagos Medical Center between October 2008 and August 2015 who received a conclusive HCV antibody Ab test within a year of clinic entry. We compared characteristics by HCV serostatus using Pearson’s chi-square and provided numbers/percentages receiving appropriate care. The sample comprised 300 patients. slightly less than half of all patients (n=134, 27.7%) were HCV Ab positive, and were significantly more likely to be older Hausas and Yoruba’s, have diagnoses of post-traumatic stress disorder (PTSD) and bipolar disorder, have prior heroin or cocaine use, and be HIV- infected. among the 134 HCV Ab positive patients, 126 (67.7%) had detectable HCV ribonucleic acid (RNA) indicating chronic HCV infection; only eight patients (2.21%) with chronic HCV infection ever initiated treatment. Nearly half of patients (47.7%) receiving office-based treatment with buprenorphine for their opioid use disorder had a positive Hepatitis C virus antibody screening test, although initiation of HCV treatment was nearly non- existent (2.21%).

Biography:

F.Picchioni has completed his PhD in 2000 from the University of Pisa (Italy) and postdoctoral studies from the Technical University of Eindhoven (The Netherlands). Since 2013 he is full professor and chair of the group Chemcial Product Engineering at the University of Groningen (The Netherlands). He has published more than 100 papers in reputed journals.

Abstract:

Chemical Enhanced Oil Recovery (EOR) is currently and mainly based on the use of partially hydrolyzed polyacrylamide as water-soluble polymer for mobility control. This choice is predominantly related to technological (thickening efficiency) as well as economic considerations. However, the presence of salt in the underground water significantly reduces the effect of such polymer on the solution rheology. This becomes even less when the polymer is used in combination with alkali. Therefore the amount of polymer required is significantly higher than expected on the basis of simple rheological models, which in turn has a clear negative effect on the economics of the process. Against this backdrop, the search for alternative water-soluble polymers has been gaining a predominant attention at both academic and industrial level. In this work we report on the synthesis and use of branched non-ionic polyacrylamide solutions for EOR. The polymers have been prepared by controlled radical polymerization to yield well-defined structure with variable number and length of the arms. The rheological behavior has been investigated as function of the macromolecular architecture as well as of concentration and presence of salt. The obtained results clearly indicate the validity of this approach since the thickening capability of the branched polymers is clearly improved with respect to the linear ones. Moreover, the non-ionic character of the material renders it insensitive in terms of solution viscosity to the presence of salts. Last but not least, the branched structure also confers to this material a slightly more prominent resistance to alkaline hydrolysis with respect to the linear ones.

Biography:

Fernando Moreira is a Professor at School of Health of Polytechnic Institute of Portugal and PhD student of Forensic Sciences in Medicine Faculty of University of Porto, currently developing control doping methods at the Toxicology Laboratory of Department of Biological Sciences of Faculty of Pharmacy of University of Porto. His expertise is in developing analytical methods for the detection and quantification of substances in complex biological matrices that also enables the clarification of pharmacokinetics events of drugs.

Abstract:

Statement of the Problem: Pigeon racing is an ancient sport, practiced by fanciers all over the world, on a weekly basis. Although the natural skills of pigeons are truly amazing, with these birds traveling hundreds of kilometers for several hours in a row, fanciers still struggle to find strategies to improve them. Unfortunately, the use of performance enhancing drugs in racing pigeons is one of these common strategies, threatening animal welfare, compromising equality of opportunity and ensuring unfair financial gains for cheaters. Despite the existence of rules and legislation that forbidden the administration of drugs to pigeons for performance enhancing purposes, it is generally acknowledged that doping control is being neglected in several countries. The number of studies presenting analytical methods for the control of these illicit practices in pigeons is minimal, probably given the nature of the available analytical matrix (faeces), and the low dosages applied to these small animals. Methodology: A liquid chromatography tandem mass spectrometry method was developed and validated for the detection and quantification of a beta-agonist (clenbuterol) and three corticosteroids (betamethasone, prednisolone and budesonide) in faeces from pigeons, after an extraction protocol combining liquid-liquid extraction and solid-phase extraction. Main results: The newly developed method was validated concerning selectivity, linearity (with coefficients of determination always greater than 0.99), accuracy (87.5–114.9 %), inter-day and intra-day precisions, limits of detection (0.14-1.81 ng/g) and limits of quantification (0.49-6.08 ng/g), stability and extraction recovery (71.0 %-99.3 %). The method adequacy was evidenced after the unequivocal detection of betamethasone in faeces from two racing pigeons that had been orally administered betamethasone. Conclusion & Significance: The method performance is suitable for doping control analysis purposes and can be easily adapted to doping control laboratorial routine procedures in order to enforce current laws.

Biography:

Dr. Poyraz has completed his PhD at Auburn University (Alabama/USA). He is an assistant professor of Department of Textile Engineering at Adiyaman University. He has published 22 papers in reputed journals and has been serving as a scientific researcher for his field of interest.

Abstract:

A hybrid electrode material (HEM), composed of carbonized conducting polymer (CP), i.e. polypyrrole nanofibers (PPy NFs), nanostructured zinc oxide (nano-ZnO) and carbon nanotubes (CNTs), was prepared for energy storage applications. HEMs were obtained through a one-step, hassle-free, rapid and highly efficient microwave (MW) energy-based approach. The overall morphology and content of the nano-ZnO and CNT compounds could be altered by simply changing the process parameters, i.e. ratios in the feedstock mixture or the MW process time. The thermal and morphological features, crystalline nature, elemental composition and also the electrochemical performance of the as-prepared HEMs were thoroughly investigated by using relevant material characterization methods such as scanning and transmission electron microscopy (SEM, TEM), energy dispersive X-ray spectroscopy (EDX), cycling voltammetry (CV) and galvanostatic charge/discharge (CD) tests. It was revealed that by synergistically blending the high conductivity from CNTs, the ultra-high porous surface area from carbonized NFs and the abundant pseudo-capacitive features from nano-ZnO in its structure, the as-synthesized HEMs could afford to exhibit promising capacitive performance (~ 190 F/g at 2 mV/s), excellent long-term CD stability (~ 90% during 2000 cycles), high energy and power densities (~ 35 Wh/kg at 500 W/kg) along with high specific surface area (~ 35 m²/g) for energy storage applications.

Biography:

Abstract:

Applications using supercritical water often encounter the presence of inorganic compounds in feed streams, most often with a minor concentration. These compounds can lead to damage of the equipment via erosion, scaling and corrosion or can influence and disturb the main reaction and processes inside the systems. In order to avoid these problems and to predict the influence of these compounds, it is vital to possess knowledge of the chemical composition of the most common inorganic compounds in supercritical water. For this, the spatial variation of calcium, magnesium, bicarbonate and sulfate were investigated during low flow periods of the year 2011 at five wells level in the Takamine area, Talsint region, Eastern Morocco, using ionic chromatography method. The obtained results show that in the majority of wells, their values are higher than the values set by the WHO (Ca²⁺: 270 mg.L^-1; Mg²⁺: 50 mg.L^-1 and SO₄^2-: 500 mg L^-1). However, the total permanent hardness values in all studied stations were found higher indicating that these waters are very hard. These can be explained by the calcareous nature of the geological terrain where traversed by water. Finally, the majority of the studied water wells have a scale or corrosion character. This result limits the use of groundwater as drinking and cooling water in this area.

Biography:

Abstract:

This paper describes the optimization of DLLME method for determination of Chlorophenoxy herbicides including 2, 4 D and MCPA by high-performance liquid chromatography (HPLC). For DLLME, a mixture of extraction solvent (Ethyl acetate, 0.35 ml for 2,4 D and 0.6 ml for MCPA) and dispersive solvent (acetonitrile, 0.65 ml for 2,4 D and 0.4 ml for MCPA), were rapidly injected into water sample for the formation of cloudy solution. The analysis was performed on a high-performance liquid chromatography (HPLC) system with a C18 column (250×4.6 mm, i.e.), and mobile phase contain of 0.05 M H3 PO4/acetonitrile (90:10) to 100 acetonitrile in 30 minutes. The flow rate was 1 mL min⁻¹, and the chromatogram was monitored at a wavelength of 280 nm. In this study, the effects of concentration of sample, pH, volume of solvent extraction, extraction time in the distributed liquid-liquid extraction have been examined and optimal conditions were obtained using the Box-Behnken

Biography:

Miriam Sannomiya has completed her PhD from University of Campinas and Post-doctoral studies from São Paulo State University at Araraquara. She is an Assistant Professor level 2 at this University since 2008. She worked with the natural products’ research in her Masters’, PhD and Post-doctoral studies. She has experience in Organic Chemistry with emphasis on chemistry of natural products, mainly in the following subjects like bioprospecting of natural products (Fabaceae, Malpighiaceae, Byrsonima, Lonchocarpus, Platymiscium, Machaerium, flavonoids and galloylquinic acid derivatives) and effects in the production of secondary metabolites. She is a Professor at Graduate Program in sustainability at the School of Arts, Sciences and Humanities since 2017. She has published more than 40 papers in reputed journals and has been serving as an Editorial Board Member of repute.

Abstract:

Eugenia uniflora L., popularly known as “cherry”; refers to a highly adapted to urban environments species and highly contaminated by airborne pollutants. In this sense, a comparative study of the content of essential oils present in the leaves of E. uniflora specimens occurring in the metropolitan region of São Paulo and in the municipal park at Mogi Cruzes-SP as well as the study of chemical composition in different seasons, can allow a better understanding of the contribution of each of these variables in the production of secondary metabolites. The chemical analysis of the different leaf extracts by GC/MS of 2 individuals of Eugenia uniflora showed a difference in the chemical profile due to its location as well as the seasonality. Regarding the essential oils, it was possible to observe that the samples collected in Mogi das Cruzes (São Paulo- Brazil) Park show a greater diversity of secondary metabolites than the samples that occur in the vicinity of the School of Arts, Sciences and Humanities (USP-Campus Leste), which is located in the Tietê Ecological Park, in the vicinal of the Ayrton Senna highway. The data showed a greater diversity of secondary metabolites in the oil samples extracted in the Tietê Park region. The greater contact with the atmospheric gases like CO₂ emitted by the means of transport, can serve as source of C for the production of secondary metabolites. The higher production of the secondary metabolites during the winter and spring seasons, can be associated in the transference of the essential oils to the leaves for the pollination process. The low production of secondary metabolites during summer is possibly associated with high water precipitation during this season, which removes much of the CO₂ from the atmosphere, thereby decreasing the supply of C to produce the compounds.

Biography:

Beatriz Fucuda Nascimento has completed her graduation at the age of 23 years from University of Mogi das Cruzes. Before that she did technical course, during one year and a half, which in that time, her goal was work in industrial branch. During her graduation, she did the internship at University of São Paulo, in an Organic lab with emphasis on Chemistry of Natural Products, directed by the Professor Doc. Miriam Sannomiya. During her internship, she discorvered the academic world and how grateful it is to work in research. Currently, she is working to improve her curriculum lattes in search of getting a master’s degree, either working to publish papers or going to congresses.

Abstract:

Eugenia uniflora L. are popularly known as “brazilian cherry” and it is consumed by brazilian people, known as antihypertensive, antirheumatic, diuretic, antipyretic astringent and for the treatment of digestive disorders. Studies report an anti-inflammatory effect  throught the infusion of dry leaves. E. uniflora belongs to Myrtaceae family. This family presents 132 genus and 5.671 species, where these species are recognized by the presence of essencial oils, flavonoids, phenolic compounds, alkaloids and saponins.The plant material of E. uniflora was collected on Tropical Municipal Park Francisco Affonso de Mello, located in Mogi das Cruzes, São Paulo – Brazil. After drying and milling, the leaves of E. uniflora was extracted by percolation in 80% ethanol solution. A portion of 20 g of the dryed extract was resuspended in ethyl acetate and water 1:1 (v/v). The fraction ethyl acetate was evaporated, obtaining 3,3 g. This fraction was dissolved in 12 mL of methanol/water 80:20 (v/v) and after centrifugation, the superior part was fractionated in column LH-20 (methanol as mobile phase), getting 108 fraction of 5 mL each. Analyses made with TLC using as mobile phase chloroform/methanol/water 80:18:2 (v/v), allowed grouping the fractions of same chromatographic profile. The study of the fractions 16-28, 29-32 and 33-39 and analyses in scale semipreparative resulted in the isolation of 7 compouds. The analyses of the spectroscopy datas of RMN ¹H, ¹³C, bidimentional experients of HSQC, HMBC e COSY, allowed to identify the compounds as being gallic acid, ethyl gallate, 3-galloyl quinic acid, 5-galloyl quinic acid, quercetin-3-O-rhamnopyranoside and miricetin-3-O-rhamnopyranoside. The ethyl gallate was described by the first time in E. uniflora.

Biography:

Sevil Çetinkaya is a Professor of Inorganic Chemistry in the Department of Chemistry at  Kirikkale University. She obtained her Ph.D. in Inorganic Chemistry at Hacettepe University in 2003. She joined the Kirikkale University as an Assistant Professor in 2006 and became an full Professor in 2013. Her current research interests focused on organometallic chemistry, design, preparation and applications of nanomaterials and porous carbon materials.

Abstract:

Asphaltene precipitation is one of the most important problems of the petroleum industry. Asphaltene collapses during petroleum processing and extraction from the well, blocking the pipes and causing many problems. For this reason, asphaltene should be removed from heavy oils. The main objective of this study was to synthesize new nanocomposite materials to be used in oil industry to prevent asphaltene deposition. The adsorption of asphaltenes from toluene solutions onto NiO/polyHIPE nanocomposite was investigated in detail. Asphaltene adsorption capacities of the polyHIPE-based nanocomposites were determined. Asphaltene adsorption kinetics and isotherms were obtained. It was seen that the pseudo-second-order model provided a good fit for the experimental data while the pseudo-first-order model did not. It is concluded that the synthesized and characterized polymer nanocomposites are important for the oil industry owing to having potential use as an adsorbent. The authors thank the Scientific and Technological Research Council of Turkey (TUBÄ°TAK) for the financial support for this study (Project No. 214Z074).

Biography:

Rabia Yeşil is currently a MSc student in the Department of Chemistry at Kirikkale University (Turkey). She graduated from Kırıkkale University Chemistry Department in 2015. She is working on a research project as a scholar. Her research interests include nanocomposite synthesis and applications.

Abstract:

In recent years, polyHIPEs with high porosity derived from high internal emulsions are being widely studied. PolyHIPEs are important in some areas such as cell culture, pure protein constructions, enzyme immobilization, water and carbon dioxide treatment, hydrogen storage and sensor materials. Due to unstable and brittle structure, their uses in industrial areas have not become more widespread. To improve the poor mechanical properties of polyHIPE foams, polyDCPD was prepared via ring opening metathesis polymerization (ROMP). In this study, dicyclopentadiene (DCPD)-based nanocomposite materials containing Mn₃O₄ nanoparticle (NP) have been synthesized for the first time. Nanocomposites were synthesized by the polymerization of a continuous phase of high internal phase emulsions containing Mn₃O₄ NPs. In these syntheses, deionized water was used as an internal phase, Pluronic-L121 was used as surfactant, and ruthenium alkylidene catalyst was used as the initiator. The effect of nanoparticle amounts on the structure of nanocomposites was examined in detail (Fig. 1). The prepared nanocomposites were characterized by SEM, BET surface area, FTIR, DSC and TGA analysis. Authors would like to thank Kirikkale University Scientific Research Projects Coordination Unit (Turkey) (Project No. 2017/073) for financial support of this work.

Biography:

K.Korzhynbayeva has completed his PhD at the age of 30 years from Al-Farabi Kazakh National University and postdoc at the Nazarbayev University School of Science and Technology. She has published more than 15 papers in international an kazakhstani journals.        
 

Abstract:

Today, the World was observing an increased demand in polymers – low-cost and lightweight materials that currently substitute traditional materials such as metals, glass and paper in many applications. The design flexibility that the polymers offer make them extremely valuable for such end industries as construction, packaging, automotive, telecommunication and other related industries.  

Polypropylene (PP) is a flexible polymer with diverse applications, including flexible packaging, polymer banknotes, and engineering materials. PP has low density, a higher melting point (about 160 ^oC) and excellent chemical resistance. This suggests that PP is suitable for injection molding (for heavier-duty applications such as safety helmets, electrical tools, TV casing, etc.), blow molding (for stronger containers such as bottles, tubs, fuel tanks) and extrusion processing techniques (for packaging). Extrusion technique is the most common mashines in polymer processing industry. Extrusion is one of the promising method to prepare different thin films for packaging, which can be defined as the act of a shaping a polymer material by forcing through a die by means of pressure [1].

Rheological data of polymers can be used in determining whether or not a type of polymer can be extruded. It helps in determining the optimal design of extrusion die design, screw geometries of an extrusion technique, various mould cavities for injection moulding.

Viscoplasticity of polymers are characterized by a yield stress, below which the materials will not deform, and above which they will deform and flow according to different constitutive relations. Viscoplastic models include the Bingham plastic, the Herschel Bulkley model, and the Casson model. The Casson model can be used to estimate values of parameters that help characterize the rheological behavior of a polymer materials that exhibit yield stress.  

In this work we report about trials to use the Casson model for certain type of polypropylene homo- and copolymers used by local companies. Based on these rheological data, we intent improved designs of the coathanger die for local PP thin film are presented with Casson and power law models. More detailed information of our presented work will be provided on the Poster session.