{"id":26,"date":"2015-03-19T20:27:14","date_gmt":"2015-03-19T20:27:14","guid":{"rendered":"http:\/\/chem.sites.mtu.edu\/xia\/?page_id=21"},"modified":"2024-07-15T09:36:42","modified_gmt":"2024-07-15T13:36:42","slug":"publications","status":"publish","type":"page","link":"https:\/\/sciences.ucf.edu\/chemistry\/xia\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"
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Publication and Citation Record in Google Scholar (total citations: >7,000; \u00a0h-Index: 37)<\/a><\/span><\/p>\n

August 2014-present<\/strong><\/span><\/p>\n

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61.<\/strong> Xi, Z.; Wei, K.; Wang, Q.; Kim, M.J.; Sun, S.; Fung, V.;* Xia, X.*<\/strong> Nickel\u2013Platinum Nanoparticles as Peroxidase Mimics with a Record High Catalytic Efficiency. Journal of the American Chemical Society<\/em>, 2021, 143, 2660\u20132664. (It was highlighted as one of the journal supplementary covers; it was reported by UCF Today) [Article Link<\/span><\/a><\/span>]<\/span><\/p>\n

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60.<\/strong> Gao, Z.; Shao, S.; Gao, W.; Tang, D.; Tang, D.; Zou, S.; Kim, M.J.; Xia, X.*<\/strong> Morphology-Invariant Metallic Nanoparticles with Tunable Plasmonic Properties.\u00a0ACS Nano<\/em>, 2021, 15<\/em>,\u00a0 2428\u20132438. [Article Link<\/span><\/a><\/span>]<\/span><\/p>\n

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59.<\/strong> Xi, Z.; Cheng, X.; Gao, Z.; Wang, M.; Cai, T.; Muzzio, M.; Davidson, E.; Chen, O.; Jung, Y.; Sun, S.; Xu, Y.;*\u00a0Xia, X.*<\/strong>\u00a0Strain effect in palladium nanostructures as nanozymes.\u00a0Nano Letters<\/em>, 2020,\u00a020<\/em>, 272\u2013277. [Article Link<\/span><\/a><\/span>]<\/span><\/p>\n

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58.<\/strong>\u00a0Gao, Z.; Ye, H.; Wang, Q.; Kim, M.; Tang, D.; Xi, Z.; Wei, Z.; Shao, S.;\u00a0Xia, X.<\/strong>* Template regeneration in galvanic replacement: A route to highly diverse hollow nanostructures.\u00a0ACS Nano<\/em>, 2020,\u00a014<\/em>, 791\u2013801<\/span>.\u00a0[Article Link<\/span><\/a>]<\/span><\/p>\n

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57.<\/strong>\u00a0Wei, Z.; Xi, Z.; Vlasov, S.; Ayala, J.;\u00a0Xia, X.*<\/strong>\u00a0Nanocrystals of Platinum-Group Metals as Peroxidase Mimics for\u00a0in Vitro<\/em>\u00a0Diagnostics.\u00a0Chemical Communications<\/em>, 2020,\u00a056<\/em>, 14962\u201314975. (invited Feature Article) [Article Link<\/span><\/a><\/span>]<\/span><\/p>\n

\"Nanocrystals<\/p>\n

56.<\/strong> Xi, Z.; Gao, W.; Xia, X.<\/strong>* Size effect in Pd\u2010Ir core\u2010shell nanoparticles as nanozymes. ChemBioChem<\/em>, 2020, 21, 2440\u20132444<\/span>. (invited article, Special Issue on Inorganic Enzyme Mimics) [Article Link<\/span><\/a>]<\/span><\/p>\n

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55.<\/strong> Wang, M.; Shawkat, M.S.; Xi, Z.; Xia, X.<\/strong>; Lee, K.S.; Son, D.I.; Bae, T.; Ryu, H.I.; Chung, H.;* Jung, Y.* Controllable synthesis of platinum diselenide (PtSe2) inorganic fullerene. Journal of Materials Chemistry A, <\/em>2020, 8<\/em>, 18925\u201318932. [Article Link<\/span><\/a>]<\/span><\/p>\n

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54.<\/strong> Davidson, E.; Xi, Z.; Gao, Z.; Xia, X.*<\/strong> Ultrafast and sensitive colorimetric detection of ascorbic acid with Pd-Pt core-shell nanostructure as peroxidase mimic. Sensors International<\/em>, 2020, 1<\/em>, 100031. (invited article, Special Issue on Nanoparticles and Nanostructures for Sensing and Diagnostic Applications) [Article Link<\/span><\/a>]<\/span><\/p>\n

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53.<\/strong> Wang, Y.; Gao, Z.; Liu, B.; Xia, X.*<\/strong> Peroxidase-AgAu hybrid nanocages as signal transducers for sensitive plasmonic colorimetric sensing. Journal of Materials Chemistry C<\/em>, 2019, 7<\/em>, 15179\u201315187. (Back cover story; highlighted as one of the 2019 JMC C<\/em> HOT Papers) [Article Link<\/span><\/a>]<\/span><\/p>\n

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52.<\/strong> Wang, Y.; Biby, A.; Xi, Z.; Liu, B.; Rao, Q.; Xia, X.*<\/strong> One-pot synthesis of single-crystal palladium nanoparticles with controllable sizes for applications in catalysis and biomedicine. ACS Applied Nano Materials,<\/em> 2019, 2<\/em>, 4605\u20134612. [Article Link<\/span><\/a>]<\/span><\/p>\n

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51.<\/strong>\u00a0Ye, H.; Xi, Z.;\u00a0Magloire, K.;\u00a0Xia, X.*<\/strong> Noble\u2010metal nanostructures as highly efficient peroxidase mimics.\u00a0ChemNanoMat,<\/em> 2019, 5<\/em>, 860\u2013868. (invited Mini Review) [Article Link<\/span><\/a>]<\/span><\/p>\n

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50.<\/strong>\u00a0Xi, Z.; Ye, H.; Xia, X.*<\/strong> Engineered noble-metal nanostructures for in vitro diagnostics.\u00a0Chemistry of Materials,<\/em>\u00a02018, 30<\/em>, 8391\u20138414. (“Up-and-Coming” Series of perspective) [Article Link<\/span><\/a>]<\/span><\/p>\n

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49.<\/strong>\u00a0Ye, H.; Xia, X.*<\/strong>\u00a0Enhancing the sensitivity of colorimetric lateral flow assay (CLFA) through signal amplification techniques.\u00a0Journal of Materials Chemistry B,<\/em>\u00a02018, 6<\/em>, 7102\u20137111. (for the 2018 Emerging Investigators special issue) [Article Link<\/span><\/a>]<\/span><\/p>\n

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48.<\/strong>\u00a0Wan, S.; Wang, Q.; Ye, H.; Kim, M. J.;*\u00a0Xia, X.*<\/strong>\u00a0Pd-Ru bimetallic nanocrystals with a porous structure and their enhanced catalytic properties.\u00a0Particle & Particle Systems Characterization<\/em>, 2018, 35<\/em>, 1700386. (invited article for a special issue on Bimetallic Nanoparticles) [Article Link<\/span><\/a>]<\/span><\/p>\n

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47.<\/strong>\u00a0Gao, Z.; Ye, H.; Tang, D.; Tao, J.; Habibi, S.; Minerick, A.; Tang, D.;\u00a0Xia, X.*<\/strong>\u00a0Platinum decorated gold nanoparticles with dual functionalities for ultrasensitive colorimetric in vitro<\/em> diagnostics.\u00a0Nano Letters<\/em>, 2017, 17<\/em>, 5572\u20135579. (It was highlighted by the NSF Science 360 News as a top story on 9.14.2017) [Article Link<\/span><\/a>] [NSF news highlight<\/a><\/span>]<\/span><\/p>\n

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46.<\/strong>\u00a0Li, J.; Gao, Z.; Ye, H.; Wan, S.; Pierce, M.; Tang, D.; Xia, X.*<\/strong>\u00a0A non-enzyme cascade amplification strategy for colorimetric assay of disease biomarkers.\u00a0Chemical Communications<\/em>, 2017, 53<\/em>, 9055\u20139058. (Cover feature. It was also highlighted as a hot article) [Article Link<\/a><\/span>] [Link to cover<\/span><\/a>] [Link to hot article highlight<\/span><\/a>]<\/span><\/p>\n

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45.<\/strong> Ye, H.; Yang, K.; Tao, J.; Liu, Y.; Zhang, Q.; Habibi, S.; Nie, Z.;\u00a0Xia, X.*<\/strong>\u00a0An enzyme-free signal amplification technique for ultrasensitive colorimetric assay of disease biomarkers.\u00a0ACS Nano<\/em>, 2017, 11<\/em>, 2052\u20132059. [Article Link<\/span><\/a>]<\/span><\/p>\n

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44.<\/strong>\u00a0Gao, Z.; Liu, G.G.; Ye, H.; Rauschendorfer, R.; Tang, D.; Xia, X.*<\/strong>\u00a0Facile colorimetric detection of silver ions with picomolar sensitivity.\u00a0Analytical Chemistry<\/em>, 2017, 89<\/em>, 3622\u20133629. [Article Link<\/a><\/span>]<\/span><\/p>\n

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43.<\/strong>\u00a0Ye, H.; Liu, Y.; Chhabra, A.; Lilla, E.;\u00a0Xia, X.*<\/strong>\u00a0Polyvinylpyrrolidone (PVP)-capped Pt nanocubes with superior peroxidase-like activity.\u00a0ChemNanoMat<\/em>, 2017, 3<\/em>, 33\u201338. (Invited article; It was highlighted as a Back Cover) [Article Link<\/a><\/span>]<\/span><\/p>\n

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42.<\/strong>\u00a0Xia, Y.; Gilroy, K.D.; Peng, H.-C.; Xia, X.<\/strong>\u00a0Seed-mediated growth of colloidal metal nanocrystals.\u00a0Angewandte Chemie International Edition<\/em>, 2017, 56<\/em>, 60\u201395. [Article Link<\/a><\/span>]<\/span><\/p>\n

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41.<\/strong>\u00a0Ye, H.; Wang, Q.; Catalano, M.; Lu, N.; Vermeylen, J.; Kim, M.; Liu, Y.; Sun, Y.; Xia, X.*<\/strong>\u00a0Ru nanoframes with an fcc structure and enhanced catalytic properties. Nano Letters<\/em>, 2016, 16<\/em>, 2812\u20132817. (It was highlighted by C&EN News in the issue of March 28, 2016 and DOE Office of Science on April 4, 2016) [PDF<\/a><\/span>] [Article Link<\/a><\/span>] [C&EN highlight<\/a><\/span>]<\/span><\/p>\n

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40.<\/strong> Ye, H.; Mohar,\u00a0J.;\u00a0Wang, Q..;\u00a0Catalano, M.; Kim, M.; Xia, X.*<\/strong>\u00a0Peroxidase-like properties of Ruthenium nanoframes. Science Bulletin<\/em>, 2016, 61<\/em>, 1739\u20131745. (Invited research article; It was highlighted as the cover story) [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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39.\u00a0<\/strong>Xia, X.;*<\/strong>\u00a0Zhang, J.; Lu, N.; Kim, M.; Ghale, K.; Xu, Y.; McKenzie, E.; Liu, J.; Ye, H.\u00a0Pd-Ir core-shell nanocubes: A type of highly efficient and versatile peroxidase mimic. ACS Nano<\/em>, 2015, 9<\/em>, 9994\u201310004. (It was reported by Michigan Tech News<\/a>,\u00a0MedicalResearch.com<\/a>, and<\/em>\u00a0highlighted by\u00a0DOE Office of Sciences<\/i><\/a>\u00a0and many other news media) [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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38.<\/strong> Xia, Y.;\u00a0Xia, X.<\/strong>; Peng, H.-C. Shape-controlled synthesis of colloidal metal nanocrystals: thermodynamic versus kinetic products. Journal of the American Chemical Society,<\/em> 2015, 137<\/em>,\u00a07947\u20137966. [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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37.\u00a0<\/strong>Xia, X.;*<\/strong>\u00a0Zhang, J.; Sawall, T. A simple colorimetric method for the quantification of Au(III) ions and its use in quantifying Au nanoparticles. Analytical Methods<\/em>, 2015, 7<\/em>, 3671\u20133675. [PDF<\/a><\/span>] [Article Link<\/a><\/span>]
\n<\/span><\/p>\n

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36.<\/strong> Choi, S.-I.; Herron, J. A.; Scaranto, J.; Huang, H.; Wang, Y.; Xia, X.<\/strong>; Lv, T.; Park, J.; Peng, H.; Xia, Y. A comprehensive study of formic acid oxidation on palladium nanocrystals with different types of facets and twin defects. ChemCatChem<\/em>, 2015, 7<\/em>, 2077\u20132084. [PDF<\/a><\/span>] [Article Link<\/span><\/a>]<\/span><\/p>\n

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2009-2014<\/span><\/strong><\/p>\n

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35.\u00a0<\/strong>Xia, X.<\/strong>; Figueroa-Cosme, L.; Tao, J.; Peng, H.-C.; Niu, G.; Zhu, Y.; Xia, Y. Facile synthesis of iridium nanocrystals with well-controlled facets using seed-mediated growth. Journal of the American Chemical Society<\/em>, 2014, 136<\/em>, 10878\u201310881. [PDF<\/a><\/span>]\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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34.\u00a0<\/strong>Xia, X.<\/strong>; Xia, Y. Gold nanocages as multifunctional materials for nanomedicine. Frontiers of Physics<\/em> 2014, 9<\/em>, 378\u2013384. [PDF<\/a><\/span>]\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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33.<\/strong> Moran, C. H.; Rycenga, M.; Xia, X.<\/strong>; Cobley, C. M.; Xia, Y. Using well-defined Ag nanocubes as substrates to quantify the spatial resolution and penetration depth of SERS imaging. Nanotechnology<\/em> 2014, 25<\/em>, 014007. [Article Link<\/a><\/span>]<\/span><\/p>\n

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32.<\/strong> Xu, Y.; Liu, Y.; Wu, Y.; Xia, X.<\/strong>; Liao, Y.; Li, Q. Fluorescent probe-based lateral flow assay for multiplex nucleic acid detection. Analytical Chemistry<\/em> 2014, 86<\/em>, 5611\u20135614. [Article Link<\/a><\/span>]<\/span><\/p>\n

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31.\u00a0<\/strong>Xia, X.<\/strong>;\u00a0Xie, S.;\u00a0Liu, M.;\u00a0Peng, H.-C.; Lu, N.; Wang, J.; Kim, M. J.; Xia, Y. On the role of surface diffusion in determining the shape or morphology of noble-metal nanocrystals. Proceedings of<\/em>the<\/em>National Academy of Sciences USA (PNAS)<\/em> 2013, 110<\/em>, 6669\u20136673. (It was highlighted in C&EN News<\/em>, April 15, 2013, and many other news media) [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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30.\u00a0<\/strong>Xia, X.<\/strong>; Choi, S. I.; Herron, J. A.; Lu, N.; Scaranto, J.; Peng, H.-C.; Wang, J.; Mavrikakis, M.; Kim, M. J.; Xia, Y. Facile synthesis of Pd right bipyramids and their use as seeds for overgrowth and as catalysts for formic acid oxidation. Journal of the American Chemical Society<\/em> 2013, 135<\/em>, 15706\u201315709. [PDF<\/a><\/span>]\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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29.\u00a0<\/strong>Xia, X.<\/strong>; Wang, Y.; Ruditskiy, A.; Xia, Y. 25th anniversary article: galvanic replacement: a simple and versatile route to hollow nanostructures with tunable and well-controlled properties.. Advanced Materials<\/em> 2013, 25<\/em>, 6313\u20136333 (For the 25th<\/sup> anniversary issue of Advanced Materials<\/em>) [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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28.\u00a0<\/strong>Xia, X.<\/strong>; Rycenga, M.; Qin, D.; Xia, Y. A silver nanocube on a gold microplate as a well-defined and highly active substrate for SERS detection. Journal of Materials Chemistry C<\/em> 2013, 1<\/em>, 6145\u20136150. [PDF<\/a><\/span>]\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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27. Xia, X.<\/strong>; Li, W.; Zhang, Y.; Xia, Y. Silica-coated dimers of silver nanospheres as SERS tags for imaging cancer cells. Interface Focus<\/em> 2013, 3<\/em>, 20120092. [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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26.<\/strong> Xia, Y.;\u00a0Xia, X.<\/strong>; Wang, Y.; Xie, S. Shape-controlled synthesis of metal nanocrystals. MRS Bulletin<\/em> 2013, 38<\/em>, 335\u2013344. (Invited review article) [Article Link<\/a><\/span>]<\/span><\/p>\n

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25.<\/strong> Peng, H.-C.; Xie, S.; Park, J.; Xia, X.<\/strong>; Xia, Y. Quantitative analysis of the coverage density of Br\u2013<\/sup> ions on Pd{100} facets and its role in controlling the shape of Pd nanocrystals. Journal of the American Chemical Society<\/em> 2013, 135<\/em>, 3780\u20133783. [Article Link<\/a><\/span>]<\/span><\/p>\n

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24.\u00a0<\/strong>Xia, X.<\/strong>; Xu, Y.; Ke, R.; Zhang, H.; Yang, W.; Zou, M.; Li, Q. A highly sensitive europium nanoparticle-based lateral flow immunoassay for detection of chloramphenicol residue. Analytical and Bioanalytical Chemistry<\/em> 2013, 405<\/em>, 7541\u20137544. [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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23.<\/strong> Choi, S. I.; Xie, S.; Shao, M.; Odell, J. H.;\u00a0 Lu, N.; Peng, H.-C.; Protsailo, L.; Guerrero, S.; Park. J.; Xia, X.<\/strong>; Wang, J.; Kim, M. J.; Xia, Y. Synthesis and characterization of 9-nm Pt-Ni octahedra with a record high activity of 3.3 A\/mgPt for the oxygen reduction reaction. Nano Letters<\/em> 2013, 13<\/em>, 3420\u20133425. (highlighted at http:\/\/nanotechweb.org\/cws\/article\/tech\/54111<\/a>)<\/span> [Article Link<\/a><\/span>]<\/span><\/p>\n

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22.<\/strong> Wang, Y.; Wan, D.; Xie, S.; Xia, X.<\/strong>; Huang, C. Z.; Xia, Y. Synthesis of silver octahedra with controlled sizes and optical properties via seed-mediated growth. ACS Nano<\/em> 2013, 7<\/em>, 4586\u20134594. [Article Link<\/a><\/span>]<\/span><\/p>\n

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21.<\/strong> Wang, Y.; Liu, Y.; Luehman, H.; Xia, X.<\/strong>; Wan, D.; Cutler, C.; Xia, Y. Radioluminescent Au nanocages with controlled radioactivity for real-time multimodality imaging. Nano Letters<\/em> 2013, 13<\/em>, 581\u2013585. [Article Link<\/a><\/span>]<\/span><\/p>\n

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20.<\/strong> Wan, D.; Xia, X.<\/strong>; Wang, Y.; Xia, Y. Robust synthesis of gold cubic nanoframes through a combination of galvanic replacement, gold deposition, and silver dealloying. Small<\/em> 2013, 9, 3111\u20133117. [Article Link<\/a><\/span>]<\/span><\/p>\n

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19.<\/strong> Moran, C. H.; Xia, X.<\/strong>; Xia, Y. Improving correlated SERS measurements with scanning electron microscopy: An assessment of the problem arising from the deposition of amorphous carbon. Physical Chemistry Chemical Physics<\/em> 2013, 15<\/em>, 5400\u20135406. [Article Link<\/a><\/span>]<\/span><\/p>\n

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18.<\/strong> Xie, S.; Choi, S.-I; Xia, X.<\/strong>; Xia, Y. Catalysis on faceted noble-metal nanocrystals: Both shape and size matter. Current Opinion in Chemical Engineering<\/em> 2013, 2<\/em>, 142\u2013150. (Invited review article) [Article Link<\/a><\/span>]<\/span><\/p>\n

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17. Xia, X.<\/strong>; Xia, Y. Symmetry breaking during seeded growth of nanocrystals. Nano Letters<\/em> 2012, 12<\/em>, 6038\u20136042. [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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16.<\/strong> Zhang, Q.; Moran, C. H.; Xia, X.<\/strong>; Rycenga, M.; Li, N.; Xia, Y. Synthesis of Ag nanobars in the presence of single-crystal seeds and a bromide compound, and their SERS properties. Langmuir<\/em> 2012, 28<\/em>, 9047\u20139054.\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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15.\u00a0<\/strong>Xia, X.<\/strong>; Zeng, J.; Zhang, Q.; Moran, C. H.; Xia, Y. Recent developments in shape-controlled synthesis of silver nanocrystals. Journal of Physical Chemistry C<\/em> 2012, 116<\/em>, 21647\u201321656. (Feature Article. It was highlighted on the cover) [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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14.\u00a0<\/strong>Xia, X.<\/strong>; Yang, M.; Wang, Y.; Zheng, Y.; Li, Q.; Chen, J.; Xia, Y. Quantifying the coverage density of poly(ethylene glycol) chains on the surface of gold nanostructures. ACS Nano<\/em> 2012, 6<\/em>, 512\u2013522. [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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13.\u00a0<\/strong>Xia, X<\/strong>.;#<\/sup><\/strong> Zeng, J.;#<\/sup><\/strong> Otejen, L. K.; Li, Q.; Xia, Y. Quantitative analysis of the role played by poly(vinylpyrrolidone) in seed-mediated growth of silver nanocrystals. Journal of the American Chemical Society<\/em> 2012, 134<\/em>, 1793\u20131801. [PDF<\/a><\/span>]\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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12.<\/strong> Wang, Y.; Liu, Y.; Luehman, H.; Xia, X.<\/strong>; Brown, P. K.; Jarreau, C.; Welch, M. J.; Xia, Y. Evaluating the pharmacokinetics and in vivo cancer targeting capability of Au nanocages by positron emission tomography imaging. ACS Nano<\/em> 2012, 6<\/em>, 5880\u20135888. [Article Link<\/a><\/span>]<\/span><\/p>\n

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11.<\/strong> Wang, Y.; Xu, J.; Xia, X.<\/strong>; Yang, M.; Vangveravong, S.; Chen, J.; Mach, R. H.; Xia, Y. SV119-gold nanocage conjugates: A new platform for targeting cancer cells via sigma-2 receptors. Nanoscale<\/em> 2012, 4<\/em>, 421\u2013424.\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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10.<\/strong> Zhou, Y.;#<\/span><\/sup><\/strong>Xia, X.<\/strong>;#<\/span><\/sup><\/strong>\u00a0(#<\/span><\/sup><\/strong>equal contribution) Xu, Y.; Ke, W.; Y, Wei.; Li, Q. Application of Eu(III) chelates-bonded silica nanoparticles in time-resolved immunofluorometric detection assay for human thyroid stimulating hormone. Analytica Chimica Acta <\/em>2012, 722<\/em>, 95\u201399. [Article Link<\/a><\/span>]<\/span><\/p>\n

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9.<\/strong> Zeng, J.; Xia, X.<\/strong>; Zhang, Q.; Wang, Y.; Xia, Y. Controlling the evolution of cubic Ag seeds into nanocrystals with different morphologies. Scientia Sinica Chimica<\/em> 2012, 42<\/em>, 1505\u20131512. (Invited review article) [Article Link<\/a><\/span>]<\/span><\/p>\n

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8.\u00a0<\/strong>Xia, X.<\/strong>;\u00a0Zeng, J.;\u00a0McDearmon, B.; Zheng, Y.; Li, Q.; Xia, Y. Silver nanocrystals with concave surfaces and their optical and surface-enhanced Raman scattering properties. Angewandte Chemie International Edition<\/em> 2011, 50<\/em>, 12542\u201312546. (It was highlighted on the inside cover) [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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7.<\/strong> Zeng, J.;#<\/sup>Xia, X.<\/strong>;#<\/sup>\u00a0(#<\/span><\/sup><\/strong>equal contribution) Rycenga, M.; Henneghan, P.; Li, Q.; Xia, Y. Successive deposition of silver on silver nanoplates: Lateral versus vertical growth. Angewandte Chemie International Edition<\/em> 2011, 50<\/em>, 244\u2013249. (It was selected by the editors as a VIP article, it was also highlighted on the frontispieces and in an accompanying article published in the same journal, 2011, 50, 992\u2013993) [PDF<\/a><\/span>]\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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6.<\/strong> Rycenga, M.;#<\/sup>Xia, X.<\/strong>;#<\/sup> (#<\/span><\/sup><\/strong>equal contribution) Moran, C.; Zhou, F.; Qin, D.; Li, Z.-Y.; Xia, Y. Generation of hot spots with silver nanocubes for single-molecule detection by surface-enhanced Raman scattering. Angewandte Chemie International Edition<\/em> 2011, 50<\/em>, 5473\u20135477. (It was highlighted as a hot paper) [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

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5. Xia, X.<\/strong>; Yang, M.; Oetjen, L. K.; Zhang, Y.; Li, Q.; Chen. J.; Xia, Y. An enzyme-sensitive probe for photoacoustic imaging and fluorescence detection of protease activity. Nanoscale<\/em> 2011, 3<\/em>, 950\u2013953. (It was highlighted as a hot paper) [PDF<\/a><\/span>]\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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4.<\/strong> Xia, Y.; Li, W.; Cobley, C. M.; Chen, J.; Xia, X.<\/strong>; Zhang, Q.; Yang, M.; Cho, E. C.; Brown, P. K. Gold Nanocages: from synthesis to theranostic applications. Accounts of Chemical Research <\/em>2011, 44<\/em>, 914\u2013924. (Invited review article, it was also highlighted in C&EN News)\u00a0[Article Link<\/a><\/span>]<\/span><\/p>\n

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3.<\/strong> Ke, R.; Yang, W.; Xia, X.<\/strong>; Xu, Y.; Li, Q. Tandem conjugation of enzyme and antibody on silica nanoparticle for enzyme immunoassay. Analytical Biochemistry<\/em> 2010, 406<\/em>, 8\u201313. [Article Link<\/a><\/span>]<\/span><\/p>\n

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2.<\/strong> Zhang, H.;\u00a0Xia, X.<\/strong>; Li, W.; Zeng, J.; Dai, Y.; Yang, D.; Xia, Y. Facile synthesis of five-fold, starfish-like rhodium nanocrystals by eliminating oxidative etching with a chloride-free precursor. Angewandte Chemie International Edition<\/em> 2010, 49<\/em>, 5296\u20135300. [Article Link<\/a><\/span>]<\/span><\/p>\n

\"\"<\/p>\n

1.\u00a0Xia, X.<\/strong>; Xu, Y.; Zhao, X.; Li, Q. Lateral flow immunoassay using europium chelate-loaded silica nanoparticles as labels. Clinical Chemistry<\/em> 2009, 55<\/em>, 179\u2013182. [PDF<\/a><\/span>] [Article Link<\/a><\/span>]<\/span><\/p>\n

\"\"<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

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