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</div> </div> <div class="right-content col-md-8 col-sm-7 col-xs-12"> <div class="bread-crumbs hidden-xs"> <a class="bread-crumbs-first" href="/">Home</a><i class="inline-icon arrow-breadcrumbs"></i><a class="bread-crumbs-first" href="/AMR">Advanced Materials Research</a><i class="inline-icon arrow-breadcrumbs"></i><span class="bread-crumbs-second">Advanced Materials Research Vol. 486</span></div> <div class="page-name-block underline-begin"> <h1 class="page-name-block-text">Advanced Materials Research Vol. 486</h1> </div> <div class="clearfix title-details"> <div class="papers-block-info col-lg-12"> <div class="row"> <div class="info-row-name normal-text-gray col-md-2 col-sm-3 col-xs-4"> <div class="row"> <p>DOI:</p> </div> </div> <div class="info-row-content semibold-middle-text col-md-10 col-sm-9 col-xs-8"> <div class="row"> <p><a href="https://doi.org/10.4028/www.scientific.net/AMR.486">https://doi.org/10.4028/www.scientific.net/AMR.486</a></p> </div> </div> </div> </div> <div id="titleMarcXmlLink" style="display: none" class="papers-block-info col-lg-12"> <div class="row"> <div class="info-row-name normal-text-gray col-md-2 col-sm-3 col-xs-4"> <div class="row"> <p>Export:</p> </div> </div> <div class="info-row-content semibold-middle-text col-md-10 col-sm-9 col-xs-8"> <div class="row"> <p><a href="/AMR.486/marc.xml">MARCXML</a></p> </div> </div> </div> </div> <div class="papers-block-info col-lg-12"> <div class="row"> <div class="info-row-name normal-text-gray col-md-2 col-sm-3 col-xs-4"> <div class="row"> <p>ToC:</p> </div> </div> <div class="info-row-content semibold-middle-text col-md-10 col-sm-9 col-xs-8"> <div class="row"> <p><a href="/AMR.486_toc.pdf">Table of Contents</a></p> </div> </div> </div> </div> </div> <div class="volume-tabs"> </div> <div class=""> <div class="volume-papers-page"> <div class="block-search-pagination clearfix"> <div class="block-search-volume"> <input id="paper-search" type="search" placeholder="Search" maxlength="65"> </div> <div class="pagination-container"><ul class="pagination"><li class="active"><span>1</span></li><li><a href="/AMR.486/2">2</a></li><li><a href="/AMR.486/3">3</a></li><li><a href="/AMR.486/4">4</a></li><li><a href="/AMR.486/5">5</a></li><li class="PagedList-ellipses"><a class="PagedList-skipToNext" href="/AMR.486/6" rel="next">…</a></li><li class="PagedList-skipToNext"><a href="/AMR.486/2" rel="next">></a></li><li class="PagedList-skipToLast"><a href="/AMR.486/10">>></a></li></ul></div> </div> <div class="block-volume-title normal-text-gray"> <p> Paper Title <span>Page</span> </p> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.-1">Preface and Committees</a> </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.3">Effect of Thermal Treatment Temperature of Electrospun PET Nanofiber Mat on Tensile Properties</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Chang Huan Zhang, Yin Zheng Liang, Xin Yue Lu, Jian Zong Zhang, Yi Ping Qiu </div> </div> <div id="abstractTextBlock181141" class="volume-info volume-info-text volume-info-description"> Abstract: The electrospinning technique was used to prepare the Polyethylene Terephthalate (PET) mats. The electrospun PET mats with different fiber diameters have many applications such as biotechnological and biomedical, functional coating, lithum-ion membrane and filtering membrane and so on. Several techniques including scanning electron microscopy (SEM), differential scanning calorimetry (DSC) and single fiber electronic tensile strength tester were used to characterize the electrospun PET mats before/after thermal treatment. When choosing the suitable temperature, the thermal treatment could improve the tensile properties without damage the structure of electrospun PET nanofiber mat, if the suitable temperature was been choosed. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181141', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 3 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.8">Influence of Mo Content of Fe/Mo/Al₂O₃ on Flame Synthesis of Carbon Nanotubes</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Yuan Yuan, Bao Min Sun, Xiao Tian Wang, Yang Wang, Yong Hong Guo </div> </div> <div id="abstractTextBlock181157" class="volume-info volume-info-text volume-info-description"> Abstract: Catalysts play a critical role in the synthesis of carbon nanotubes. In this paper, we design a series of experiments to explore the impact of contents of Mo on the products. Analysis show, when the molar ratio of Fe: Mo: Al is 1: 0.2: 16, the carbon nanotubes show the best yields and quality. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181157', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 8 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.12">Experimental Research of Visible Light-Induced Photocatalytic Oxidation Effects of SO₂ by N-Doping Nano-TiO₂</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Shu Qin Wang, Yin Tao Wang, Yan Dong Liu </div> </div> <div id="abstractTextBlock181168" class="volume-info volume-info-text volume-info-description"> Abstract: N-doping nanoTiO2 was prepared by sol-gel method. The TEM,XRD,XPS,BET and UV techniques were used to characterize the crystalline structure.The photocatalytic oxidation effects of SO2 were studied with the fluorescence lamp illumination under the different conditions. The visible light-induced photocatalytic oxidation mechanisms of SO2 were discussed. The results showed that N-doping nanoTiO2 increase the visible-light responsive photocatalytic activity because of the increase of the surface area, O2 lacuna and small particle diameter. There are the optima of the dosage and amount of O2. The removal efficiency of SO2 was greater than 95% under the experimental conditions. The photocatalytic reactions of SO2 included two parts-adsorption and oxidation. The results provide some references for the SO2 control and further application of nanoTiO2. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181168', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 12 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.18">A Study of DNA Combing Speed in Fabricating Nanochannel ElectroPoration (NEP) Chips</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Samuel I. En Lin </div> </div> <div id="abstractTextBlock181179" class="volume-info volume-info-text volume-info-description"> Abstract: Electroporation through nanochannels has potential as a useful tool for cell transfection. This potential is due to: the low voltage required; the centralized distribution of the potential penetration; the fact that this method causes no harm to the cell membrane, and; the even expression pattern of the target gene after electroporation. Additionally, the stable production process and improved yield rate can reduce the cost of producing the nanochannels and thus make the commercialization of this technique more feasible. This study aims to investigate the relationship between the speed of DNA stretching and the yield rate of nanochannels. We found that when the length of nanochannels is 2 µm, the yield rate can exceed 90% at a stretching speed of 2.3 mm/s . With a similarly high yield rate, longer nanochannels (3 µm) displayed a wider range of stretching speed. We have determined that the stretching speed can influence the adhesion of DNA and the subsequent fabrication of nanochannels. Therefore, this speed must be appropriately controlled. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181179', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 18 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.23">A ZnO Driven Silicon Cantilever for Nanoscale Actuation</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Yan Hui Yuan, He Jun Du, Pei Hong Wang </div> </div> <div id="abstractTextBlock181190" class="volume-info volume-info-text volume-info-description"> Abstract: A micro silicon cantilever actuated by ZnO thin film was designed, fabricated and characterized. The ZnO thin film was deposited by RF sputtering at room temperature. The transverse piezoelectric constant <i>d</i>₃₁was found to be-4.66 pC/N. Time and frequency responses of the cantilever actuator were investigated by means of a laser Doppler vibrometer. The actuator has a sensitivity of 12 nm/V at 15 kHz. Its 1^st bending resonance was observed at 53 kHz. The bandwidth was found to be 27 kHz with damping of 0.35%. The cantilever demonstrated capability of high frequency actuation on a nanometer level. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181190', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 23 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.27">Effect of Pd Nanoparticle on the Thermal Degradation Kinetics of Nylon 6/Pd Nanocomposite Prepared by a Dry Process</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Jae Young Lee, Sung Wan Hong, Kyeong Sik Han, Taeck Hong Lee, Hong Ki Lee </div> </div> <div id="abstractTextBlock181201" class="volume-info volume-info-text volume-info-description"> Abstract: Palladium (Pd) nanoparticles were incorporated into a nylon 6 film via a dry process which consisted of simultaneous vaporization, penetration and reduction processes of palladium (II) bis (acetylacetonate, Pd (acac)₂) at 180°C for various exposure time. The even dispersion of the generated Pd nanoparticles were observed by transmission electron microscope (TEM) and the Pd loading weight of about 15~43 wt% was measured by thermogravimetric analysis (TGA). In order to study the catalytic effect of Pd nanoparticles on the thermal degradation kinetics of nylon 6, TGA data at various heating rates were introduced to Flynn &amp; Wall equation. The thermal degradation activation energy for neat nylon 6 was ca. 162~178 kJ/mol over the thermal degradation fraction of 0.05~0.40 while that of the nylon 6/Pd (26.5 wt%) nanocomposite was ca. 110~169 kJ/mol over the same fraction range. It meant the Pd nanoparticles were acted as a catalyst on the depolymerization of amide group in nylon 6. It was also found that the activation energy decreased slightly with the increasing Pd loading weight. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181201', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 27 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.34">Effect of Injection Molding Process on Electrical Conductivity and Mechanical Property of Nanoparticle Filled Polymer Composites</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Jing Chao Zou, Ai Yun Jiang, Bao Feng Zhang, Hai Hong Wu, Ya Jun Zhou </div> </div> <div id="abstractTextBlock181212" class="volume-info volume-info-text volume-info-description"> Abstract: Authors investigated the relationship among processing parameters, microstructures, electrical conductivity and mechanical property of injection molded nanoparticle filled polymer composites at present study. Standard tensile specimens were injected under different injecting pressures and packing pressures. The molded specimens were removing five layers from the surface to observe the microstructures at different positions of the moldings. The electrical properties were measured with a two-terminal standard resistor under DC condition at room temperature, and the mechanical properties of the moldings were measured by INSTRON 5580 Universal testing machine. The results showed that filled nanoparticles may form the best conductive path under the higher packing pressure matched with higher injection pressure. The mechanical properties of the molding depend on not only the concentration of the nanofiller, but processing conditions as well. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181212', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 34 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.39">Room-Temperature ZnO Nanoparticle Ethanol Gas Sensors under UV Illumination</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: S.P. Chang </div> </div> <div id="abstractTextBlock181223" class="volume-info volume-info-text volume-info-description"> Abstract: A zinc oxide (ZnO) nanoparticle gas sensor was formed by spin coating. We annealed the film at 400, 600, and 800°C for 1 h in air to create a gas sensor. The responses of the gas sensor to ethanol under UV light illumination were investigated. We found that the ZnO nanoparticle film annealed at 800°C had the highest sensitivity. This can be attributed to the fact that the defects of ZnO nanoparticle film annealed at 800°C are considerably more than those for the film annealed at other temperatures. This study demonstrates that ZnO nanoparticles have potential applications as room-temperature ethanol sensors. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181223', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 39 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.486.44">Investigation of Nano-Structured White Carbon Films</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Lan Zhang, Hui Zhong Ma, Ning Yao, Bing Lin Zhang </div> </div> <div id="abstractTextBlock181234" class="volume-info volume-info-text volume-info-description"> Abstract: White carbon films with sp¹-hybridization of carbon were synthesized by microwave plasma chemical vapor deposition. The surface morphology of the deposited film, which consisted of nanograins and nanofibers, was observed by scanning electron microscope. The x-ray diffraction peak at 2θ=21.69^o corresponds to the (110) facet of β modifications of white carbon material. The peak position at 283.2 eV in x-ray photoelectron spectrum represents binding energy of C_1s core level of sp¹-hybridization of carbon. Field electron emission properties of the film were tested by using a diode structure in a vacuum chamber. The turn-on field of 2.3V/μm and the emission current density of 360μA/cm² at electric field of 7V/μm were obtained. </div> <div> <a data-readmore="{ block: '#abstractTextBlock181234', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 44 </div> </div> <div class="block-bottom-pagination"> <div class="pager-info"> <p>Showing 1 to 10 of 98 Paper Titles</p> </div> <div class="pagination-container"><ul class="pagination"><li class="active"><span>1</span></li><li><a href="/AMR.486/2">2</a></li><li><a href="/AMR.486/3">3</a></li><li><a href="/AMR.486/4">4</a></li><li><a href="/AMR.486/5">5</a></li><li class="PagedList-ellipses"><a class="PagedList-skipToNext" href="/AMR.486/6" rel="next">…</a></li><li class="PagedList-skipToNext"><a href="/AMR.486/2" rel="next">></a></li><li class="PagedList-skipToLast"><a href="/AMR.486/10">>></a></li></ul></div> </div> </div> </div> </div> </div> </div> </div> <div class="social-icon-popup"> <a href="https://www.facebook.com/Scientific.Net.Ltd/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon facebook-popup-icon social-icon"></i></a> <a href="https://twitter.com/Scientific_Net/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon twitter-popup-icon social-icon"></i></a> <a href="https://www.linkedin.com/company/scientificnet/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon linkedin-popup-icon social-icon"></i></a> </div> </div> <div class="sc-footer"> <div class="footer-fluid"> <div class="container"> <div class="row"> <div class="footer-menu col-md-12 col-sm-12 col-xs-12"> <ul class="list-inline menu-font"> <li><a href="/ForLibraries">For Libraries</a></li> <li><a href="/ForPublication/Paper">For Publication</a></li> <li><a href="/insights" target="_blank">Insights</a></li> <li><a href="/DocuCenter">Downloads</a></li> <li><a href="/Home/AboutUs">About Us</a></li> <li><a href="/PolicyAndEthics/PublishingPolicies">Policy &amp; Ethics</a></li> <li><a href="/Home/Contacts">Contact Us</a></li> <li><a href="/Home/Imprint">Imprint</a></li> <li><a href="/Home/PrivacyPolicy">Privacy Policy</a></li> <li><a href="/Home/Sitemap">Sitemap</a></li> <li><a href="/Conferences">All Conferences</a></li> <li><a href="/special-issues">All Special Issues</a></li> <li><a href="/news/all">All News</a></li> <li><a href="/open-access-partners">Open Access Partners</a></li> </ul> </div> </div> </div> </div> <div class="line-footer"></div> <div class="footer-fluid"> <div class="container"> <div class="row"> <div class="col-xs-12"> <a href="https://www.facebook.com/Scientific.Net.Ltd/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon facebook-footer-icon social-icon"></i></a> <a href="https://twitter.com/Scientific_Net/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon twitter-footer-icon social-icon"></i></a> <a href="https://www.linkedin.com/company/scientificnet/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon linkedin-footer-icon social-icon"></i></a> </div> </div> </div> </div> <div class="line-footer"></div> <div class="footer-fluid"> <div class="container"> <div class="row"> <div class="col-xs-12 footer-copyright"> <p> &#169; 2025 Trans Tech Publications Ltd. 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