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Prospects of Nanoscience with Nanocrystals
Kovalenko, Maksym V.,Manna, Liberato,Cabot, Andreu,Hens, Zeger,Talapin, Dmitri V.,Kagan, Cherie R.,Klimov, Victor I.,Rogach, Andrey L.,Reiss, Peter,Milliron, Delia J.,Guyot-Sionnnest, Philippe,Konstan American Chemical Society 2015 ACS NANO Vol.9 No.2
<P>Colloidal nanocrystals (NCs, <I>i.e.</I>, crystalline nanoparticles) have become an important class of materials with great potential for applications ranging from medicine to electronic and optoelectronic devices. Today’s strong research focus on NCs has been prompted by the tremendous progress in their synthesis. Impressively narrow size distributions of just a few percent, rational shape-engineering, compositional modulation, electronic doping, and tailored surface chemistries are now feasible for a broad range of inorganic compounds. The performance of inorganic NC-based photovoltaic and light-emitting devices has become competitive to other state-of-the-art materials. Semiconductor NCs hold unique promise for near- and mid-infrared technologies, where very few semiconductor materials are available. On a purely fundamental side, new insights into NC growth, chemical transformations, and self-organization can be gained from rapidly progressing <I>in situ</I> characterization and direct imaging techniques. New phenomena are constantly being discovered in the photophysics of NCs and in the electronic properties of NC solids. In this Nano Focus, we review the state of the art in research on colloidal NCs focusing on the most recent works published in the last 2 years.</P><P><B>Graphic Abstract</B> <IMG SRC='http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/ancac3/2015/ancac3.2015.9.issue-2/nn506223h/production/images/medium/nn-2014-06223h_0020.gif'></P>
Nancy J. Miller,Ruoh-Nan Terry Yan,Daniela Jankovska,Camille Hensely 한국마케팅과학회 2017 Journal of Global Fashion Marketing Vol.8 No.1
Millennial consumers, born between 1980 and 2000, are one of the largest consumer groups, yet there is limited knowledge about their apparel product purchasing intentions. Millennials are said to make sustainability-based decisions and to have a strong social and environmental consciousness. This study explores US Millennial consumers’ consumption values in relation to social cause product attributes of environment, labor, and traceability along with 12 more traditional attributes such as fi t or style. Consumption values include the perceived importance of functional, monetary, emotional, social, and epistemic benefi ts derived from the apparel products. Online survey data were collected from 307 students attending a major western US university. The research hypotheses are tested using regression analyses with jeans as the apparel product category. Results suggest that traditional attributes remain a stronger infl uence on consumption values than social cause attributes, and that social cause product attributes, while infl uencing four consumption values, did not infl uence the social consumption value. Consumption values infl uence US Millennial consumers’ purchase intentions and these mediate the infl uence of traditional and social cause attributes on purchase intentions. Further investigation is suggested for clarifying the discrepancy between what is reported regarding Millennial consumers’ convictions and their intended apparel purchase behavior.
Badrut Tamam Ibnu Ali,Cininta Nareswari,Triyanda Gunawan,Nurul Widiastuti,Yuly Kusumawati,Juhana Jaafar,Hens Saputra,Dety Oktavia Sulistiono 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.127 No.-
Polyethylene terephthalate (PET) is a widely used polymer in packaging products, leading to the daily disposalof millions of PET bottles as waste. 1.1 to 8.8 million tonnes of plastic waste enter the sea each year. The environmental challenge of non-biodegradable PET waste can be addressed by utilizing it as a thinlayermembrane for gas separation. This study modified the PET membrane by blending it with Pebaxpolymer and adding zeolite as a filler to enhance its performance. Characterization techniques, includingFTIR, SEM, TGA, tensile strength testing, and contact angle measurements, were performed on all modifiedmembranes. The membranes were prepared using phase inversion via immersion precipitation. Theresults showed that the PET waste membrane had a denser surface pore morphology and asymmetricalcross-sectional pores than other membranes. Adding Pebax and zeolite resulted in a more regularsponge-like pore structure. The PET, PET-Pebax, and PET-Zeolite NaY-Pebax membranes exhibited hydrophilicproperties, as indicated by contact angle values ranging from 48-78. Regarding CO2/CH4 separation,the 9% PET-Pebax membrane had the highest CO2 permeability, a 21% increase from the originalPET waste membrane. Adding zeolite to the 9% PET-Pebax membrane increased CO2 permeability to1044%.