Polanyi Evaluation of Adsorptive Capacities of Commercial Activated Carbons

Commercial activated carbons from Calgon (207C and OVC) and Cabot Norit (RB2 and GCA 48) were evaluated for use in spacecraft trace contaminant control filters. The Polanyi potential plots of the activated carbons were compared using to those of Barnebey-Cheney Type BD, an untreated activated carbon with similar properties as the acid-treated Barnebey-Sutcliffe Type 3032 utilized in the TCCS. Their adsorptive capacities under dry conditions were measured in a closed loop system and the sorbents were ranked for their ability to remove common VOCs found in spacecraft cabin air. This comparison suggests that these sorbents can be ranked as GCA 48 207C, OVC RB2 for the compounds evaluated

30P Nowa fizyczna metoda wczesnego diagnozowania i monitorowania leczenia chorych z rozpoznaniem nowotworu

Pole magnetyczne o indukcji B > 10 tesli znajduje zastosowanie w analizie indukowanej dwójłomności kołowej surowicy krwi. Analiza oddziaływania silnego pola magnetycznego i elektromagnetycznego pola wiązki świetlnej z surowicą krwi wykazała, że w silnym polu magnetycznym ujawnia się wyraźnie ilościowa różnica magneto-optycznych efektów obserwowanych dla surowic dawców krwi chorych z nowotworami. Dokonano analizy 110 surowic krwi. Pomiary wykonano w silnym impulsowym (B ≅ 30 tesli). Próbki surowicy 23 dawców krwi zostały poddane badaniom mającym na celu określenie naturalnej aktywności optycznej. Surowice te stanowiły punkt odniesienia do analiz surowic chorych onkologicznych. Analizowano surowice chorych z rozpoznaniem raka prostaty, jelita grubego, raka jajnika, w którym w trakcie leczenia oznacza się poziom markerów nowotworowych. Druga grupa chorych to pacjenci z mierzalnymi guzami gruczołu piersiowego, mięsaka, czerniaka, szpiczaka. Dokonano pomiarów magneto-optycznych współczynników a, b, c oraz naturalnej aktywności optycznej α0 surowic.Wykazano wyraźną współzależność między stanem chorego, a wartością współczynnika b oraz jego korelacją ze wzrostem poziomu markerów nowotworowych lub wielkością ognisk przerzutowych. Prowadzone po raz pierwszy badania magnatyczno-optycznej dwójłomności kołowej surowicy są szybką metodą analityczną. Mogą w przyszłości mieć zastosowanie w diagnostyce i monitorowaniu leczenia nowotworów

Metallodielectric eutectic composite for plasmonic applications

META'15, City College of New York, New York City, NY, USA August 4, 2015 – August 7, 2015; http://metaconferences.org/ocs/index.php/META15/META15Metallodielectric composites are very interesting from the point of view of metamaterials and plasmonics. For the fabrication of self-organized metallodielectric micro/nanostructures, one particularly promising approach is based on the directional solidification of eutectics. Here we demonstrate a bulk three-dimensional nanoplasmonic eutectic composite which was obtained by bottom-up approach. This material exhibits localized surface plasmon resonance (LSPR) at visible wavelengths.The authors thank the Maestro Project 2011/02/A/ST5/00471 and the Preludium Project 2012/07/N/ST5/02428 from the National Science Centre, the Project operated within the Foundation for Polish Science Team Programme cofinanced by the EU European Regional Development Fund and the U.S. Air Force Office of Scientific Research under Grant FA9550-14-1-0061 for support of this work. Additional information: The authors have applied for a patent regarding this work.Peer Reviewe

ESR STUDY OF THE MAGNETIC PROPERTIES OF THE CdTe/CdMnTe MULTI QUANTUM WELLS

The results of electron spin resonance investigations of bulk Cd1-xMnx Τ e and of molecular beam epitaxy grown CdTe/CdMnTe single 2 µm thick layer and multi quantum well with Mn concentrations of about x = 0.10 are compared. The Mn 2+ electron spin resonance spectrum of the MQW CdTe/CdMnTe shows severalfeatures different from those observed in the CdMnTe bulk sample.The Mn2+ resonance shows a small anisotropy of position and widthwith the anisotropy axis normal to the heterointerface. Tle temperature dependence of the width of the electron spin resonance line is also different from that observed for the bulk and for the thick single layer

NGC 770: A Counter-Rotating Core in a Low-Luminosity Elliptical Galaxy

We present evidence for a counter-rotating core in the low-luminosity (M_B = -18.2) elliptical galaxy NGC 770 based on internal stellar kinematic data. This counter-rotating core is unusual as NGC 770 is not the primary galaxy in the region and it lies in an environment with evidence of on-going tidal interactions. We discovered the counter-rotating core via single-slit Keck/ESI echelle spectroscopy; subsequent integral field spectroscopy was obtained with the Gemini/GMOS IFU. The counter-rotating region has a peak rotation velocity of 21 km/s as compared to the main galaxy's rotation speed of greater than 45 km/s in the opposite direction. The counter-rotating region extends to a radius of 4'' (0.6 kpc), slightly smaller than the half-light radius of the galaxy which is 5.3'' (0.8 kpc) and is confined to a disk whose scale height is less than 0.8'' (0.1 kpc). We compute an age and metallicity of the inner counter-rotating region of 3 +/- 0.5 Gyr and [Fe/H] = 0.2 +/- 0.2 dex, based on Lick absorption-line indices. The lack of other large galaxies in this region limits possible scenarios for the formation of the counter-rotating core. We discuss several scenarios and favor one in which NGC 770 accreted a small gas-rich dwarf galaxy during a very minor merging event. If this scenario is correct, it represents one of the few known examples of merging between two dwarf-sized galaxies.Comment: 26 pages, 9 figures. Accepted to AJ. See this http://www.ociw.edu/~mgeha/geha.ps.gz for version with high resolution figure

Evaluating the Adsorptive Capabilites of Chemsorb 1000 and Chemsorb 1425

The removal of trace contaminants from spacecraft cabin air is necessary for crew health and comfort during long duration space exploration missions. The air revitalization technologies used in these future exploration missions will evolve from current ISS ISS State-of-Art (SOA) and is being designed and tested by the Advanced Exploration Systems (AES) Program's Atmosphere Resource Recovery and Environmental Monitoring (ARREM) project. The ARREM project is working to mature optimum atmosphere revitalization and environmental monitoring system architectures to enable exploration beyond Lower Earth Orbit (LEO). The Air Revitalization Lab at KSC is one of six NASA field centers participating in the ARREM that specializes in adsorbent and catalyst characterization with simulated spacecraft gas streams using combinations of pressure, O2 partial pressure, CO2 partial pressure, and humidity that are representative of a range of anticipated cabin atmospheric conditions and loads. On board ISS, the Trace Contaminant Control Subassembly (TCCS) provides active control of trace contaminants from the cabin atmosphere utilizing physical adsorption, thermal catalytic oxidation, and chemical adsorption processes. High molecular weight contaminants and ammonia (NH3) are removed a granular activated carbon treated with approx. 10% by weight phosphoric acid (H3PO4) (B-S Type 3032 46 mesh), which is expendable and is periodically refurbished. The Type 3032 granular activated carbon bed is no longer commercially available and therefore it is important to characterize the efficiency and capacity of commercially available NH3 sorbents. This paper describes the characterization of two Molecular Products LTD activated carbons: Chemsorb 1000 and Chemsorb 1425. Untreated activated carbons (e.g. Chemsorb 1000) remove contaminants by physisorption, which concentrates the contaminant within the pores of the carbon while letting air to pass through the sorbent4. Low molecular weight or polar gases (e.g. HCl, SO2, formaldehyde, and NH3) are not removed by physisorption and typically require chemisorption for removal. Treated activated carbons (e.g. Chemsorb 1425) are impregnated with a a chemical agent (e.g. phosphoric acid) that reacts with those gases, converting them to solids or salts within the carbon and removes them from the air stream. This process occurs via neutralization or catalysis reactions and adsorption capacity is exhaustedwhen the available impregnated chemicals are consumed. Moisture affects removal performance since adsorption sites within the pores are filled with water. The performance of impregnated carbons may be enhanced by moisture content because the mechanisms of contaminant removal are chemical reactions that occur in reagents contained within the pores. The adsorptive capacity data (mol/kg) of Chemsorb 1000 and 1425 for gas mixtures (ethanol, acetone, toluene, acetaldehyde, dichloromethane, and xylene) was measured with 40% relative humidity at 23 deg C air temperature. The adsorptive capacity data (mol/kg) of Chemsorb 1425 was measured using NH3 gas streams

Kitchen Lab for Kids. Program kształtowania umiejętności STEM w przedszkolu

The authors of the article: “Kitchen Lab for Kids – a Programme for Shaping STEM Skills in Preschool” have presented the assumptions of the project financed from the European Funds within the Programme “Erasmus+ Action 2. School education – strategic partnerships for school education” (KA 201). The objective of five research teams from Italy, Ireland, Spain and Poland, is promoting the international exchange of the best practices and experiences in selecting active learning at the level of early childhood education and care (ECEC), as well as stimulating and encouraging teachers to find new, modern and interactive teaching methods, especially in the scope of STEM education. In the first part of the article the authors analysed the EU documents being the basis for the project actions. Also, they emphasized the meaning of improving the quality of teaching young children. In the further part of the article, they presented the methodological assumptions of the project and expected intellectual results.Article prepared within the frame of Erasmus+ Project “Kitchen Lab for Kids,” grant number 2018-1-PL01-KA201-050857.The article prepared with financial support of EU Erasmus+ programme. The European Commission’s support for the production of this publication does not constitute an endorsement of the contents, which reflect the views only of the authors, and the Commission cannot be held responsible for any use which may be made of the information contained therein.Autorzy artykułu „Kitchen Lab for Kids – Program kształtowania umiejętności STEM w przedszkolu” przedstawiają założenia projektu, dofinansowanego z Funduszy Europejskich w ramach Programu „Erasmus+ Akcja2. Edukacja szkolna – Partnerstwa strategiczne na rzecz edukacji szkolnej” (KA201). Celem działań pięciu zespołów badawczych z Włoch, Irlandii, Hiszpanii i Polski jest promowanie międzynarodowej wymiany najlepszych praktyk i doświadczeń w zakresie wspierania aktywnego uczenia się na poziomie wczesnej edukacji i opieki nad dzieckiem (ECEC), a także stymulowanie i zachęcanie nauczycieli do znajdowania nowych, nowoczesnych i interaktywnych metod nauczania zwłaszcza w zakresie edukacji STEM. W pierwszej części artykułu przedstawiono analizę dokumentów unijnych, które stanowiły podstawę dla podjętych działań projektowych. Przybliżono znaczenie podnoszenie jakości kształcenia małych dzieci. W dalszej części artykułu zamieszczono założenia metodologiczne projektu oraz planowane rezultaty intelektualne. Badania przeprowadzone w ramach programu Erasmus +, projekt „Kitchen Lab for Kids”, numer grantu: 2018-1-PL01-KA201-050857 Artykuł sfinansowany ze środków EU. Wsparcie Komisji Europejskiej dla produkcji tej publikacji nie stanowi poparcia dla treści, które odzwierciedlają jedynie poglądy autorów, a Komisja nie może zostać pociągnięta do odpowiedzialności za jakiekolwiek wykorzystanie informacji w niej zawartych

miR-125b-5p impacts extracellular vesicle biogenesis, trafficking, and EV subpopulation release in the porcine trophoblast by regulating ESCRT-dependent pathway

Abstract Intercellular communication is a critical process that ensures cooperation between distinct cell types at the embryo–maternal interface. Extracellular vesicles (EVs) are considered to be potent mediators of this communication by transferring biological information in their cargo (e.g., miRNAs) to the recipient cells. miRNAs are small non-coding RNAs that affect the function and fate of neighboring and distant cells by regulating gene expression. Focusing on the maternal side of the dialog, we recently revealed the impact of embryonic signals, including miRNAs, on EV-mediated cell-to-cell communication. In this study, we show the regulatory mechanism of the miR-125b-5p ESCRT-mediated EV biogenesis pathway and the further secretion of EVs by trophoblasts at the time when the crucial steps of implantation are taking place. To test the ability of miR-125b-5p to influence the expression of genes involved in the generation and release of EV subpopulations in porcine conceptuses, we used an ex vivo approach. Next, in silico and in vitro analyses were performed to confirm miRNA–mRNA interactions. Finally, EV trafficking and release were assessed using several imaging and particle analysis tools. Our results indicated that conceptus development and implantation are accompanied by changes in the abundance of EV biogenesis and trafficking machinery. ESCRT-dependent EV biogenesis and the further secretion of EVs were modulated by miR-125b-5p, specifically impacting the ESCRT-II complex (via VPS36) and EV trafficking in primary porcine trophoblast cells. The identified miRNA–ESCRT interplay led to the generation and secretion of specific subpopulations of EVs. miRNA present at the embryo–maternal interface governs EV-mediated communication between the mother and the developing conceptus, leading to the generation, trafficking, and release of characteristic subpopulations of EVs

Mechanisms of radiative and nonradiative recombination in ZnSe:Cr and ZnSe:Fe

Possible applications of ZnSe:Cr in optoelectronics are discussed. It is shown that 2+ to 1+ photo-ionization of chromium results in efficient pumping of Cr²⁺ intrashell emission and in energy up-conversion from green to blue. A distinct difference in efficiency of the energy up-conversion is observed between chromium and iron doped ZnSe samples. This difference we relate to a very efficient Auger mechanism of photoluminescence quenching in Fe-doped samples. We further demonstrate an anticorrelation of intensity of mid-infrared Cr emission and up-converted blue emission of ZnSe