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<p class="art-type" id="articleinfo">Research Article</p>
<p class="art-title">Frictional Wear Behavior of Ceria Nano-Particles with different Morphologies</p>
<p class="art-author">Liangbin Hu<sup>1</sup>, Changjun Qiu<sup>1*</sup>, Pengfei Hu<sup>1</sup>, Zehui Lin<sup>1</sup>, and Yong Chen<sup>1,2*</sup></p>
<p class="art-affl"><sup>1</sup>School of Mechanical Engineering, University of South China, Hengyang, China<br><sup>2</sup>International Iberian Nanotechnology Laboratory (INL), Avenida Mestre Jose Veiga, Portugal</p>
<p class="art-aff"><b>*Corresponding authors:</b><br>
<b>Changjun Qiu</b>, School of Mechanical Engineering, University of South China, Hengyang, China, Tel: +86-734-828-2034, E-mail: <a href="mailto:qiuchangjun@hotmail.com">qiuchangjun@hotmail.com</a><br>
<b>Yong Chen</b>, School of Mechanical Engineering, University of South China, Hengyang, China, Tel: +86-734-828-2034, E-mail: <a href="mailto:chenyongjsnt@163.com">chenyongjsnt@163.com</a></p>
<p class="art-aff"><b>Received</b>: December 20, 2017 <b>Accepted</b>: January  22, 2018 <b>Published</b>: January 27, 2018</p>
<p class="art-aff"><b>Citation</b>: Hu L, Qiu C, Hu P, Lin Z, Chen Y. Frictional wear behavior of Ceria nano-particles with different morphologies. <i>Madridge J Nanotechnol Nanosci</i>. 2018; 3(1): 83-86. doi: <a href="https://doi.org/10.18689/mjnn-1000115">10.18689/mjnn-1000115</a></p>
<p class="art-aff"><b>Copyright</b>: &copy; 2018 The Author(s). This work is licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.</p>
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					<p class="art-subhead" id="abstarct">Abstract</p>
					<p class="art-para">We apply a facile and efficient hydrothermal approach to fabricate four types of cerium nanoparticles, nano-octahedron, cube, rod and sphere. We find that the nanoparticles exhibit marked material removal capacity due to the morphology with well-defined edges, which introduces large contacting stress between the nano-particles CeO<sub>2</sub> slurry and the silicon single crystal substrate. In addition, the frictional wear behavior of the ceria nano-particles with the well-defined edges is found to be of the micro-ploughing wear. The nano-particles with smooth curved surface are found to show good polishing quality in virtue of the abrasive wear mechanism.</p>
<p class="art-para"><b>Keywords:</b> Hydrothermal process; CeO<sub>2</sub> microstructure; Frictional wear behavior; Morphologies.</p>
<p class="art-subhead" id="intro">Introduction</p>
<p class="art-para">Ceria (CeO<sub>2</sub>) particles have received a great deal of attention recently due to the irremarkable catalytic activity, oxygen sensors, ultraviolet absorbents, polishing performance and so on <a href="#1" id="ref1">[1</a>-<a href="#4" id="ref4">4]</a>. In particular, sphere-shaped nanoparticles have attracted extensive interest because of their excellent polishing quality <a href="#5" id="ref5">[5</a>-<a href="#11" id="ref11">11]</a>. Up to now, much effort has been devoted to the controllable synthesis of CeO<sub>2</sub> nanoparticles with a specific size and shape <a href="#12" id="ref12">[12</a>-<a href="#19" id="ref19">19]</a>. The shape and size of nanocrystals impose significantly impact on their physical and chemical properties <a href="#20" id="ref20">[20</a>-<a href="#22" id="ref22">22]</a>.</p>
<p class="art-para">The polishing mechanism for CeO<sub>2</sub> spheres is dominated by surface grinding because there is no sharp edge. However, the material removal efficiency of the CeO<sub>2</sub> spheres is rather low. To improve the removal efficiency, the nanoparticles with sharp edge may present preferable cutting ability and hence enhance the material removal efficiency. Here, we fabricated four nanoparticles with different morphologies via a facile hydrothermal process. The morphologies of the CeO<sub>2</sub> nano-particles are characterized by field emission scanning electron microscopy (FE-SEM). Moreover, the polishing properties of the CeO<sub>2</sub>nanoparticles at the primary stage of mechanical polishing are investigated.</p>
<p class="art-subhead">Experimental</p>
<p class="art-para">All chemical reagents were of analytical grade (purity: 99.9 wt%, Sigma-Aldrich Co., Ltd) and utilized without further purification. Four specimens with different morphologies (octahedron, cube, rod, and sphere) were synthesized via a facile hydrothermal method no using surfactants and templates. First, cerium nitrate hexahydrate or cerium acetate hydrate was dissolved in distilled water and stirred for15min using a magnetic stirrer. Next, the solution was transferred into autoclaves and treated at a definite temperature at under autogenous pressure. Finally, white products were harvested by centrifuging, washing with distilled water and ethanol to remove unexpected ions, and drying at 343K in air. There agent and synthesis parameters as follow: ceriumnitrate hexahydrate is 1mmol, K<sub>3</sub>PO<sub>4</sub> is 0.01mmol, temperature is 453K,time is 12 h (octahedron); cerium nitrate hexahydrate is 1mmol, KOH is 10 mmol, temperature is 453K, time is 18 h (cube); Ce(NO<sub>3</sub>)<sub>3</sub>&#183;6H<sub>2</sub>O is 1mmol, K<sub>3</sub>PO<sub>4</sub> is 0.01mmol, H<sub>2</sub>O<sub>2</sub> is 6ml, temperature is 503K, time is 24 h, calcinated temperature at 573K,calcinated time is 10h(sphere); cerium acetate hydrate (Ce(Ac)<sub>3</sub>&#183; nH<sub>2</sub>O)is 1mmol,dibasic sodium phosphate (Na<sub>2</sub>HPO<sub>4</sub>) is 0.01mmol, H2O2 is 2 mml (rod).</p>
<p class="art-para">Octahedron, cube, rod and sphere-shaped nano-particles CeO<sub>2</sub>slurry were used for silicon single crystal substrate polishing with a concentration of 1 wt%. In the polishing process, the polishing pad was rotated with a speed of 2000 rpm. During polishing, a constant load of 10 KPa was applied to the polishing head. The polishing time was 1 min.</p>
<p class="art-para">Microstructures were characterized via the X-ray diffraction (XRD) and scanning electron microscopy (SEM). For the XRD, a Rigaku D/ max-1200X diffractometry with the Cu K&#945; radiation operated at 45 keV and 200 mA. Morphologies were observed using the Hitachi SU 8000SEM. Microstructures were further observed by transmission electron microscopy (TEM) (JEM-2010F, JEOL) operated at 200 KeV <a href="#23" id="ref23">[23</a>-<a href="#27" id="ref27">27]</a>.</p>
<p class="art-subhead" id="discussion">Results and Discussion</p>
<p class="art-para">To determine the phase of the synthesized particles, XRD analysis was employed as shown in <a href="#f001">figure 1</a>. Upon a closer indexing, the diffraction peaks of four samples at the angle of 28.5&#176;, 33.1&#176;, 47.5&#176;, 56.3&#176;, 59.1&#176;, 69.4&#176;, 76.7&#176;, 79.1&#176; and 88.4&#176; which could be identified as (111), (200), (220), (311), (222), (400), (331), (420)and(422) lattice planes. No other diffraction peaks were detected by XRD, indicating that the obtained nanoparticles are chemically pure. Hence from the XRD spectra, we could confirm that the four samples which were fabricated via the hydrothermal process are composed of pure fluorite-type ceria without other crystalline impurities.</p>
<div class="art-img" id="f001">
<img src="<?php echo $imgpath;?>images/mjnn-115-f001.gif" class="img-responsive center-block"/></div>
<div class="text-center">Figure 1. XRD pattern of the CeO<sub>2</sub> samples with different morphologies prepared by hydrothermal method</div>
<p class="art-para">We carried out SEM to investigate the morphology feature of both as prepared CeO<sub>2</sub> nanostructures. Those CeO<sub>2</sub> nano-octahedron exhibits very sharp corners and edges (<a href="#f002">Figure. 2(a)</a>). The average size of the nano-octahedrons is estimated to be 100 nm. The <a href="#f002">figure 2b</a> shows the SEM images of the as-synthesized nanoparticles, from which one can clearly note that the nanoparticles have a cubic shape with sharp corners and well-defined edges. Further, their surfaces are neat and smooth with no other particles adsorbed, the size of the as-synthesized nanoparticles is in principle uniform, ranging slightly from 20 to 44 nm. The uniform sphere particles have an average diameter of about 300nm, and have a crude surface which is covered by wrinkles completely (<a href="#f002">Figure 2c</a>). <a href="#f002">Figure 2d</a> presents as-synthesized CeO<sub>2</sub>, which reveal a rod-like morphology for the sample. The nano-rods exhibit an average diameter of ~10 nm and an average length of ~400 nm.</p>
<div class="art-img" id="f002">
<img src="<?php echo $imgpath;?>images/mjnn-115-f002.gif" class="img-responsive center-block"/></div>
<div class="text-center">Figure 2. FE-SEM image of (a) octahedrons; (b) cubes; (c) rods; (d) sphere shaped nanoparticles morphologies</div>
<p class="art-para">To extract microstructure and morphology information of the synthesized CeO<sub>2</sub> nano-particles, TEM was employed. <a href="#f003">Fig. 3(a)</a> <a href="#f003">(d)</a> and <a href="#f003">(g)</a> show the bright-field TEM images of three typical CeO<sub>2</sub> nanoparticles. <a href="#f003">Figures 3a</a> and <a href="#f003">3b</a> show bright-field TEM images of high crystalline nano octahedrons. The size of the nano-octahedrons is estimated tobe100nm. <a href="#f003">Figure 3(c)</a> shows typical high-resolution TEM (HRTEM) images taken at a corner of the sample, from which lattice spacing is determined to be~0.31 nm, in line with that of the (111) planes of CeO<sub>2</sub>, thereby confirming that the nano-octahedrons is terminated with {111}
planes. <a href="#f003">Figure 3(d)</a>, <a href="#f003">(e)</a> show two typical bright-field images, which confirm that the nanoparticles are of cubic shape and high crystallinity, and that the surfaces are flat and clean. The nano-cubes have an average diameter of ~30 nm. <a href="#f003">Figure 3 (f)</a> shows a high-resolution TEM (HRTEM) image taken around the corner of a nano-cube. Lattice spacing of two groups of perpendicular lattice fringes is determined to be ~0.27 nm, in accord with that of the CeO<sub>2</sub>{001} planes. The nano-rods are uniform with a diameter of ~10 nm and a length of several hundreds of nanometers (<a href="#f003">Figure 3(g)</a> and <a href="#f003">(h)</a>). <a href="#f003">Figure 3 (i)</a> shows an enlarged TEM image of an individual CeO<sub>2</sub> nano-rod, which indicates a prefect crystallinity for the CeO<sub>2</sub> nano-rods. Further selected-area diffraction patterns (SADP) identify the nano-octahedron, nano-cube and nano-rod as face-centered cubic CeO<sub>2</sub> (insert, <a href="#f003">Figure 3(e)</a>, <a href="#f003">(h)</a> and <a href="#f003">(i)</a>).</p>
<div class="art-img" id="f003">
<img src="<?php echo $imgpath;?>images/mjnn-115-f003.gif" class="img-responsive center-block"/></div>
<div class="text-center">Figure 3. (a) (d) (g) TEM images of the octahedron, cube, rodshaped CeO<sub>2</sub> nanoparticles. (b), (e), (h) TEM images of the individual nanoparticle with sphere, cube, rod morphologies. (c), (f), (i) HRTEM image of a corner region of the nanoparticles. The inset shows the corresponding SADP identifying each individual nanoparticle.</div>
<p class="art-para"><a href="#f004">Figure 4</a> presents SEM images of the silicon single crystal substrate polished by CeO<sub>2</sub> nanoparticles with different morphologies (octahedron, cube, rod and sphere-shaped). The deep ploughing traces could be detected on the surface of silicon single crystal substrate polished by the octahedron-shaped CeO<sub>2</sub> nanoparticles under a high sliding speed and light-load as shown in <a href="#f004">figure 4a</a>. From <a href="#f004">figure 4b</a>, one can confirm that the shadow scratches are found on surfaces of the silicon single crystal substrate due to the rough surface of the sphere-shaped CeO<sub>2</sub> nanoparticles. A small number of slight scratches are observed on surfaces of the silicon single crystal substrate which polished by rod-shaped CeO<sub>2</sub> nanoparticles as show in <a href="#f004">figure 4c</a>. As can be seen in <a href="#f004">figure 4d</a>, the furrow scratches are observed on surfaces of the cube-shaped CeO<sub>2</sub> nanoparticles polished silicon single crystal substrate.</p>
<div class="art-img" id="f004">
<img src="<?php echo $imgpath;?>images/mjnn-115-f004.gif" class="img-responsive center-block"/></div>
<div class="text-center">Figure 4. SEM images of the silicon single crystal substrate polished using CeO<sub>2</sub> nanoparticles with different morphologies. The insert shows the corresponding morphologies of polishing CeO<sub>2</sub> nanoparticles.</div>
<p class="art-para">To shed light on how the interface between the silicon single crystal substrate and CeO<sub>2</sub>nanoparticles affect the polish quality and removal efficiency, compressive stress distribution calculations were conducted using the finite element analysis (FEA). The three-dimensional FEA result shows that the compressive stress of the silicon single crystal substrate is 90236 MPa (nano-cube),89730 MPa (nano-octahedron) and 1340.7MPa (nano-spheres)due to the point contact between the CeO<sub>2</sub> nano-particles and silicon substrate (<a href="#f005">Figures 5c</a>, <a href="#f005">5d</a>, and <a href="#f005">5g</a>), respectively. While the compressive stress of silicon substrate in case of nano-particles shaped with octahedron and cube are 3681.7 MPa and 2958.5 MPa (<a href="#f005">Figure 5a</a> and <a href="#f005">5e</a>) because the contact method is surface contact. Moreover, the line contact between the octahedron, cube and rod-shaped CeO<sub>2</sub> nano-particles and silicon single crystal substrate could introduce the compressive stress of 23265MPa (nano-cube), 17671 MPa (nano-octahedrons) and 437.42 MPa (nano-rods) (<a href="#f005">figures 5b</a>,<a href="#f005">5f</a> and <a href="#f005">5h</a>), respectively. Hence, the contact form between CeO<sub>2</sub>nano-octahedron and silicon substrate is point contact, which could induce the highest compressive stress.</p>
<div class="art-img" id="f005">
<img src="<?php echo $imgpath;?>images/mjnn-115-f005.gif" class="img-responsive center-block"/></div>
<div class="text-center">Figure 5. The compressive stress distribution between the silicon single crystal substrate and CeO<sub>2</sub> nanoparticles, which is calculated by the finite element analysis. (a).(b) (c) show the contact form between CeO<sub>2</sub> nano-cube and silicon substrate is surface contact, line contact, point contact respectively. The contact form between CeO<sub>2</sub> nano-octahedron and silicon substrate is (d) surface contact (e) line contact (f) point contact. (g) shows the point contact between CeO<sub>2</sub> nano-sphere and silicon substrate. (h) shows the line contact between CeO<sub>2</sub> nano-rod and silicon substrate.</div>
<p class="art-para">Since the contact takes the form of point contact, abrasion mechanism of the silicon substrate polished by the sphere-shaped CeO<sub>2</sub> nanoparticles is microscale abrasive wear, while that polished by the nano-octahedron with sharp corners and well-defined edges is micro-ploughing wear <a href="#28" id="ref28">[28]</a>. The CeO<sub>2</sub>nano-spheres hold improved polishing property, but the material removal rate of silicon surface is lower than that of CeO<sub>2</sub> nano-octahedron. Conversely, the CeO<sub>2</sub> nano-octahedrons exhibit a stronger material removal capacity and inferior polishing quality than spheres-shaped CeO<sub>2</sub>.</p>
<p class="art-subhead">Conclusions</p>
<p class="art-para">We have utilized a facile and efficient hydrothermal method to synthesize four types of ceria nanoparticles, octahedron, cube, rod and sphere-shaped cerium nanoparticles. As a consequence of the unusual morphology, we find that the nanoparticles, i.e.nano-cube and nano-octahedron with well-defined edge scan introduce large stress in contact area between the nano-particles CeO<sub>2</sub> slurry and the silicon single crystal substrate, which can improve markedly material removal capacity due to the micro-ploughing wear behavior. In addition, we also find that the nano-particles with a smooth curved surface can retain the polishing quality for a long time in virtue of the abrasive wear mechanism.</p>
<p class="art-subhead">Acknowledgments</p>
<p class="art-para">Zehui Lin thanks the financial support by the Project of Research Study and Creativity Experiment Plan for College Students of the Hunan province (Hunan Provincial Education Department Bulletingrant no.[2016]283).</p>
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