PUBLICATIONS AND PATENTS
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Journal articles           Citation: Nianqiang Wu

188. A single-ion conducting UIO-66 metal-organic framework electrolyte for all-solid-state lithium batteries, H. Yang, B. Liu, J. Bright, S. Kasani, J. Yang, X. Zhang, N. Q. Wu, ACS Applied Energy Materials, 3 (2020), 4007-4013.

187. Chemical interaction and enhanced interfacial ion transport in a ceramic nanofiber-polymer composite electrolyte for all-solid-state lithium metal batteries, H. Yang, J. Bright, B. Chen, P. Zheng, X. Gao, B. Liu, S. Kasani, X. Zhang, N. Q. Wu, Journal of Materials Chemistry A, 8 (2020), 7261-7272.

186. Garnet-rich composite solid electrolytes for dendrite-free, high-rate, solid-state lithium-metal batteries, C. Yan, P. Zhu, H. Jia, Z. Du, J. Zhu, R. Orenstein, H. Cheng, N. Q. Wu, M. Dirican, X. Zhang, Energy Storage Materials, 26 (2020), 448-456.

185. Mouse pulmonary dose- and time course-responses induced by exposure to nitrogen-doped multi-walled carbon nanotubes, D. W. Porter, M. Orandle, P. Zheng, N. Q. Wu, R. F. Hamilton, A. Holian, B. T. Chen, M. Andrew, M. G. Wolfarth, L. Battelli, S. Tsuruoka, M. Terrones, V. Castranova, Inhalation Toxicology, 7 (2020), 1-15.

184. Molecular hot spots in surface-enhanced Raman scattering, M. Li, S. K. Cushing, G. Zhou, N. Q. Wu, Nanoscale, (2020), In press.

183. H. Tang,* C.-J. Chen, Z. Huang, J. Bright, G. Meng, R.-S. Liu, N. Q. Wu, Plasmonic hot electrons for sensing, photodetection, and solar energy applications: A perspective, Journal of Chemical Physics, 152 (2020) 220901, (Invited perspective article, front cover).

182. Tunable visible-light surface plasmon resonance of molybdenum oxide thin films fabricated by e-beam evaporation, S. Kasani, P. Zheng, J. Bright, N. Q. Wu, ACS Applied Electronic Materials, 1 (2019), 2389-2395.

181. A review of 2D and 3D plasmonic nanostructure array patterns: fabrication, light management and sensing applications, S. Kasani, K. Curtin, N. Q. Wu, Nanophotonics, 8(12)(2019), 2065-2089, (Invited review article).

180. Converting plasmonic light scattering to confined light absorption and creating plexcitons by coupling a gold nano-pyramid array onto a silica-gold film, P. Zheng,  S. Kasani,  N. Q. Wu, Nanoscale Horizons, 4 (2019), 516-525.

179. Origin of strong and narrow localized surface plasmon resonance of copper nanocubes, P. Zheng, H. Tang, B. Liu, S. Kasani, L. Huang, N. Q. Wu, Nano Research, 12(1) (2019), 63-68.

178. Plasmon-tunable Au@Ag core-shell spiky nanoparticles for surface-enhanced Raman scattering, Z. Huang, G. Meng, X. Hu, Q. Pan, D. Huo, H. Zhou, Y. N. Q. Wu, Nano Research, 12(2) (2019), 449-455.

177. Metal-organic framework coated titanium dioxide nanorod array p-n heterojunction photoanode for solar water-splitting, H. Yang, J. Bright, S. Kasani, P. Zheng, T. Musho, B. Chen, L. Huang, N. Q. Wu, Nano Research, 12(3)(2019), 643-650.

176. Functionalization of a metal-organic framework semiconductor for tuned band structure and catalytic activity, J. Li, T. Musho, J. Bright, N. Q. Wu, Journal of The Electrochemical Society, 166(5) (2019), H3029-H3034.

175. Visible-light bismuth iron molybdate photocatalyst for artificial nitrogen fixation, B. Liu, A. S. Yasin, T. Musho, J. Bright, H. Tang, L. Huang, N. Q. Wu, Journal of The Electrochemical Society, 166(5) (2019), H3091-H3096.

174. Density functional theory evaluation of cation-doped bismuth molybdenum oxide photocatalysts for nitrogen fixation, A. S. Yasin, B. Liu, N. Q. Wu, T. Musho, Computational Materials Science, 158 (2019), 65-75.

173. High-performance 3-D fiber network composite electrolyte enabled with Li-ion conducting nanofibers and amorphous PEO-based cross-linked polymer for ambient all-solid-state lithium-metal batteries, C. Yan, P. Zhu, H. Jia, J. Zhu, R. K. Selvan, Y. Li, X. Dong, Z. Du, I. Angunawela, N. Q. Wu, M. Dirican, X. Zhang, Advanced Fiber Materials, 1 (2019), 46-60.

172. Flexible electrolyte-cathode bilayer framework with stabilized interface for room-temperature all-solid-state lithium-sulfur batteries, P. Zhu, C. Yan, J. Zhu, J. Zang, Y. Li, H. Jia, X. Dong, Z. Du, C. Zhang, N. Q.  Wu, M. Dirican, X. Zhang, Energy Storage Materials, 17 (2019), 220-225.

171. Li0.33La0.557TiO3 ceramic nanofiber-enhanced polyethylene oxide based composite polymer electrolyte for all-solid-state lithium batteries, P. Zhu, C. Yan, M. Dirican, J. Zhu, J. Zang, K. S. Ramakrishnan, C.-C. Chung, J. Hao, Y. Li, Y. Kiyak, N. Q. Wu,  X. Zhang, Journal of Materials Chemistry A, 6 (2018), 4279-4285.

170. Detection of nitrite with a surface-enhanced Raman scattering sensor based on silver nanopyramid array, P. Zheng, S. Kasani, X. Shi, A. E. Boryczka, F. Yang, H. Tang, M. Li, W. Zheng, D. E. Elswick, N. Q. Wu, Analytica Chimica Acta, 1040 (2018), 158-165.

169. Surface-enhanced Raman scattering sensors for food safety and environmental monitoring, H. Tang, C. Zhu, G. Meng, N. Q. Wu, Journal of The Electrochemical Society, 165(8) (2018), B3098-B3118,(Invited review article).

168. Plasmonic resonance energy transfer enhanced photodynamic therapy with Au@SiO2@Cu2O/perfluorohexane nanocomposites, C. Liu, H. Dong, N. Q. Wu, Y. Cao,  X. Zhang,  ACS Applied Materials & Interfaces, 10 (2018), 6991-7002.

167. Tailoring optical properties of a large-area plasmonic gold nano-ring array pattern, S. Kasani, P. Zheng, N. Q. Wu, The Journal of Physical Chemistry C, 122 (2018), 13443-13449

166. Tunable non-thermal distribution of hot electrons in a semiconductor injected from a plasmonic gold nanostructure, S. K. Cushing, C.-J. Chen, C. L. Dong, X.-T. Kong, A. O. Govorov, R.-S. Liu, N. Q. Wu, ACS Nano, 12 (2018), 7117-7126.

165. Plasmonic metal-semiconductor photocatalysts and photoelectrochemical cells: a review, N. Q. Wu, Nanoscale, 10 (2018), 2679-2696, (Invited review article).

164. Effects of defects on photocatalytic activity of hydrogen-treated titanium oxide nanobelts, S. K. Cushing, F. Meng, J. Zhang, B. Ding, C. K. Chen, C. J. Chen, R. S. Liu, A. D. Bristow, P. Zheng, J. Bright, and N. Q. Wu, ACS Catalysis, 7 (2017), 1742-1748.

163. Excitation wavelength dependent fluorescence of graphene oxide controlled by strain, S. K. Cushing, W. Ding, G. Chen, C. Wang, F. Yang, F. Q. Huang, N. Q. Wu,  Nanoscale, 9 (2017), 2240-2245.

162. Length, but not reactive edges, of cup-stack MWCNT is responsible for toxicity and acute lung inflammation, R. F. Hamilton, S. Tsuruoka, N. Q. Wu, M. Wolfarth, D. W. Porter, M. Bunderson-Schelvan, A. Holian, Toxicologic Pathology, 46(1) (2018), 62-74.

161. Effect of surface functionalizations of multi-walled carbon nanotubes on neoplastic transformation potential in primary human lung epithelial cells, T. A. Stueckle, D. C. Davidson, R. Derk, P. Wang, S. Friend, D. Schwegler-Berry, P. Zheng, N. Q. Wu, V. Castranova, Y. Rojanasakul, L. Wang,  Nanotoxicology, 11(5) (2017), 613-624.

160. Lung bioactivity of vapor grown carbon nanofibers, D. W. Porter, M. Orandle, R. R. Mercer, N. Q. Wu, P. Zheng, B. T. Chen, A. J. Holian, M. Andrew, S. Leonard, M. Wolfarth, S. Friend, L. Battelli, R. F. Hamilton, Y. Hagiwara, T. Koyama, V. Castranova, NanoImpact, 6 (2017), 1-10.

159. Effects of titanium dioxide nanoparticles on human keratinocytes, C. Wright, A.K.V. Iyer, L. Wang, N. Q. Wu, J. S, Yakisich, Y, Rojanasakul, N, Azad, Drug and chemical toxicology, 40(1) (2017), 90-100.

158. Kriging-based design of experiments for multi-source exposure-response studies in nanotoxicology, Y. Pei, F. Yang, X. Chen, N, Q, Wu, K. Wang, ACS Sustainable Chemistry & Engineering, 5 (2017), 3223-3232.

157.Integrated lateral flow device for flow control with blood separation and biosensing, V. Betancur, J. Sun, N. Q. Wu, Y. Liu,  Micromachines, 8 (2017), 367.

156. Fluorescence and sensing applications of graphene oxide and graphene quantum dots: a review, P. Zheng, and N. Q. Wu, Chemistry - An Asian Journal, 12 (2017), 2343-2353, (Invited review article).

155. Paper-based surface-enhanced Raman scattering lateral flow strip for detection of neuron-specific enolase in blood plasma, X. Gao, P. Zheng, S. Kasani, S. Wu. F. Yang, S. Lewis, S. Nayeem, E. B. Engler-Chiurazzi,  J. G. Wigginton, J. W. Simpkins, N. Q.  Wu, Analytical Chemistry, 89 (2017), 10104-10110.

154. Detection of dithiocarbamate pesticides with a spongelike surface-enhanced Raman scattering substrate made of reduced graphene oxide-wrapped silver nanocubes, C. Zhu, X. Wang, X. Shi, F. Yang, G. Meng, Q. Xiong, Y. Ke, H. Wang, Y. Lu, N. Q. Wu, ACS Applied Materials & Interfaces, 9 (2017), 39618-39625.

153. A hierarchical nanostructure-based surface-enhanced Raman scattering sensor for preconcentration and detection of antibiotic pollutants, Q. Zhou, G. Meng, J. Liu, Z. Huang, F. Han, C. Zhu, D. Kim, T. Kim, N. Q. Wu, Advanced Materials Technologies, 2(6) (2017), 1700028.

152. Detection of mercury(II) with a surface-enhanced Raman scattering sensor based on functionalized gold nanoparticles, P. Zheng, X. Shi, K. Curtin, F. Yang, N. Q. Wu,  Materials Research Express, 4 (2017), 055017.

151. Smartphone-based sensors, X. Gao and N. Q. Wu, Interface, 25(4) (2016), 79-81, (Invited perspective article).

150. Incorporation of a basil-seed-based surface enhanced Raman scattering sensor with a pipet for detection of melamine, N. Zhou, Q. Zhou, G. Meng, Z. Huang, Y. Ke, J. Liu, N. Q. Wu, ACS Sensors, 1 (2016), 1193-1197.

149. An ordered array of hierarchical spheres for surface-enhanced Raman scattering detection of trace pesticide, X. Hu, P. Zheng, G. Meng, Q. Huang, C. Zhu, F. Han, Z. Huang, Z. Li, Z. Wang, N. Q. Wu, Nanotechnology, 27 (2016), 384001.

148. A hierarchically ordered array of silver nanorod bundles for surface-enhanced Raman scattering detection of phenolic pollutants, C. Zhu, G. Meng, P. Zheng, Q. Huang, Z. Li, X. Hu, X. Wang, Z. Huang, F. Li, N. Q. Wu, Advanced Materials, 28 (2016), 4871-4876,(Frontispiece)

147. Fabrication of hexagonally patterned flower-like silver particle arrays as surface-enhanced Raman scattering substrates, H. Tang, P. Zheng, G. Meng, Z. Li, C. Zhu, F. Han, Y. Ke, Z. Wang, F. Zhou, N. Q. Wu, Nanotechnology, 27 (2016), 325303.

146. Dipping into a drink: basil-seed supported silver nanoparticles as surface-enhanced Raman scattering substrates for toxic molecule detection, Q. Zhou, G. Meng, N. Q. Wu, N. Zhou, B. Chen, F. Li, Q. Huang, Sensors & Actuators B, 223 (2016), 447–452.

145. Study of the inorganic substitution in a functionalized UiO-66 metal-organic framework, A. S. Yasin, J. Li, N. Q. Wu, T. Musho, Physical Chemistry Chemical Physics, 18 (2016), 12748-12754.

144. Thermodynamics of the oxygen evolution electrocatalysis in a functionalized UiO-66 metal-organic framework, T. Musho, J. Li, N. Q. Wu, International Journal of Quantum Chemistry, 116 (2016), 1153-1159. (Journal Front cover)

143. Micro-sized BiOCl square nanosheets as ultraviolet photodetectors and photocatalysts, M. Li, J. Zhang, H. Gao, F. Li, S. Lindquist, N. Q. Wu, R. Wang, ACS Applied Materials & Interfaces, 8 (2016), 6662-6668.

142. Investigation of the plasmonic effect in air-processed PbS/CdS core–shell quantum dot based solar cells, B. A. Gonfa, M. R. Kim, P. Zheng, S. Cushing, Q. Qiao, N. Q. Wu, M. A. El Khakani, D. Ma, Journal of Materials Chemistry A, 4 (2016), 13071-13080.

141. Progress and perspectives of plasmon-enhanced solar energy conversion, S. K. Cushing, N. Q. Wu, The Journal of Physical Chemistry Letters, 7 (2016), 666-675, (Invited perspective article),(Journal Front cover).

140. Distinguishing surface effects of gold nanoparticles from plasmonic effect on photoelectrochemical water splitting by hematite, J. Li, S. K. Cushing, D. Chu, P. Zheng, J. Bright, C. Castle, A. Manivannan, N. Q. Wu,  Journal of Materials Research, 31 (2016), 1608-1615, (Invited focus issue article).

139. Theoretical maximum efficiency of solar energy conversion in plasmonic metal-semiconductor heterojunctions, S. K. Cushing, A. D. Bristow, N. Q. Wu, Physical Chemistry Chemical Physics, 17 (2015), 30013-30022.

138. Plasmon-induced resonance energy transfer for solar energy conversion, J. Li, S. K. Cushing, F. Meng, T. R. Senty, A. D. Bristow, N. Q. Wu, Nature Photonics, 9 (2015), 601-607.

137. Controlling plasmon-induced resonance energy transfer and hot electron injection processes in metal@TiO2 core-shell nanoparticles, S. K. Cushing, J. Li, J. Bright, B. Yost, P. Zheng, A. D. Bristow, N. Q. Wu, Journal of Physical Chemistry C, 119 (2015), 16239-16244.

136. Investigation of band gap narrowing in nitrogen-doped La2Ti2O7 with transient absorption spectroscopy, B. T. Yost, S. K. Cushing, F. Meng, J. Bright, D. A. Bas, N. Q. Wu and A. D. Bristow, Physical Chemistry Chemical Physics, 17 (2015), 31039-31043.

135. Enhancement of solar hydrogen generation by synergistic interaction of La2Ti2O7 photocatalyst with plasmonic gold nanoparticles and reduced graphene oxide nanosheets, F. Meng, S. K. Cushing, J. Li, S. Hao, N. Q. Wu, ACS Catalysis, 5 (2015), 1949-1955.

134. Band gap narrowing in nitrogen-doped La2Ti2O7 predicated by density-functional theory calculation, J. Zhang, W. Dang, Z. Ao, S. K. Cushing, N. Q. Wu, Physical Chemistry Chemical Physics, 17 (2015), 8994-9000.

133. Ab initio calculation of electronic charge mobility in metal–organic frameworks, T. Musho, N. Q. Wu, Physical Chemistry Chemical Physics, 17 (2015), 26160-26165.

132. Semiconductor-based photocatalysts and photoelectrochemical cells for solar fuel generation: a review, J. Li, N. Q. Wu, Catalysis Science & Technology, 5 (2015), 1360-1384, (Invited perspective article),(Journal Front cover).

131. Towards high efficiency air-processed near-infrared responsive photovoltaics: bulk heterojunction solar cells based on PbS/CdS core–shell quantum dots and TiO2 nanorod arrays, B. A. Gonfa, M. R. Kim, N. Delegan, A. C. Tavares, R. Izquierdo, N. Q. Wu, M. A. E. Khakani, D. Ma, Nanoscale, 7 (2015), 10039-10049.

130. Lignosulphonate-cellulose derived porous activated carbon for supercapacitor electrode, Z. Zhao, S. Hao, P. Hao, Y. Sang, A. Manivannan, N. Q. Wu, H. Liu, Journal of Materials Chemistry A, 3 (2015), 15049-15056.

129. Gaussian process based modeling and experimental design for sensor calibration in drifting environments, Z. Geng, F. Yang, X. Chen, N. Q. Wu, Sensors & Actuators B, 216 (2015), 321-331.

128. Microfluidic gradient device for studying mesothelial cell migration and the effect of chronic carbon nanotube exposure, H. Zhang, W. Lohcharoenkal, J. Sun, X. Li, L. Wang, N. Q. Wu, Y. Rojanasakul, Y. Liu, Journal of Micromechanics and Microengineering, 25 (2015), 075010.

127. A surface-enhanced Raman scattering sensor integrated with battery-controlled fluidic device for capture and detection of trace small molecules, Q. Zhou, G. Meng, P. Zheng, S.  Cushing, N. Q. Wu, Q. Huang, C. Zhu, Z. Zhang, Z. Wang, Scientific Reports, 5 (2015), 12865.

126. ZnO-nanotaper array sacrificial templated synthesis of noble-metal building-block assembled nanotube arrays as 3D SERS-substrates, C. Zhu, G. Meng, Q. Huang, X. Wang, Y. Qian, X. Hu, H. Tang, N. Q. Wu, Nano research, 8 (2015), 957-966,(Journal Front cover).

125. Tailoring plasmonic properties of gold nanohole arrays for surface-enhanced Raman scattering, P. Zheng, S. K. Cushing, S. Suri, N. Q. Wu, Physical Chemistry Chemical Physics, 17 (2015), 21211-21219, (Invited theme issue article).

124. A gold nanohole array based surface-enhanced Raman scattering biosensor for detection of Silver(I) and Mercury(II) in human saliva, P. Zheng, M. Li, R. Jurevic, S. K. Cushing, Y. Liu, N. Q. Wu, Nanoscale, 7 (2015), 11005-11012.

123. Plasmon-enhanced optical sensors: a review, M. Li, S. K. Cushing, N. Q. Wu, Analyst, 140 (2015), 386-406, (Invited critical review article).

122. Gold@silica core-shell nanoparticle-based surface-enhanced Raman scattering biosensor for label-free glucose detection, I. Al-Ogaidi, H. Gou, A. K. Al-kazaz, Z. Aguilar, A. K. Melconian, P. Zheng, N. Q. Wu, Analytica Chimica Acta, 811 (2014), 76-80.

121. Detection of the ovarian cancer biomarker CA-125 using chemiluminescence resonance energy transfer to graphene quantum dots, I. Al-Ogaidi, H. Gou, Z. P. Aguilar, S. Guo, A. K. Melconian, A. Kareem A. Al-kazaz, F. Meng, and N. Q. Wu, Chemical Communications, 50 (2014), 1344-1346.

120. Enzyme catalytic efficiency: a function of bio-nano interface reactions, A. S. Campbell, C. Dong, F. Meng, J. Hardinger, G. Perhinschi, N. Q. Wu, C. Z. Dinu, ACS Applied Materials & Interfaces, 6 (2014), 5393-5403.

119. Synthesis, characterization, and bioactivity of carboxylic acid-functionalized titanium dioxide nanobelts, R. F. Hamilton, N. Q. Wu, C. Xiang, M. Li, F. Yang, M. Wolfarth, D. Porter, A. Holian, Particle and Fibre Toxicology, 11 (2014), 43,  DOI:10.1186/s12989-014-0043-7.

118. Effect of multi-walled carbon nanotube surface modification on bioactivity in the C57Bl/6 mouse model, T. Sager, M. G. Wolfarth, S. Friend, A. F Hubbs, R. F. Hamilton, N. Q. Wu, F. Yang, D. W. Porter, A. Holian, Nanotoxicology, 8 (2014 ), 317-327.

117. IL-1R signalling is critical for regulation of multi-walled carbon nanotubes-induced acute lung inflammation in C57Bl/6 mice, T. A. Girtsman, C. A. Beamer, N. Q. Wu, M. Buford, A. Holian, Nanotoxicology, 8 (2014), 17-27.

116. A new stochastic Kriging method for modeling multi-source exposure-response data in toxicology studies, K. Wang, X. Chen, F. Yang, D. W. Porter, N. Q. Wu, ACS Sustainable Chemistry & Engineering, 2 (2014), 1581-1591.

115. Effects of pore structure on performance of an activated-carbon supercapacitor electrode recycled from scrap waste tire, M. Zhi, F. Yang, F. Meng, M. Li, A. Manivannan, N. Q. Wu, ACS Sustainable Chemistry & Engineering, 2 (2014), 1592-1598.

114. Electrospun activated carbon nanofibers for supercapacitor electrode, M. Zhi, S. Liu, Z. Hong, N. Q. Wu, RSC Advances, 4 (2014), 43619-43623.

113. Origin of strong excitation wavelength dependent fluorescence of graphene oxide, S. K. Cushing, M. Li, F. Huang, N. Q. Wu, ACS Nano, 8 (2014), 1002-1013.

112. Band gap modulation of functionalized metal–organic frameworks, T. Musho, J. Li, N. Q. Wu, Physical Chemistry Chemical Physics, 16 (2014), 23646-23653.

111. Air-processed depleted bulk heterojunction soalr cells based on PbS/CdS Core-shell quantum dots and TiO2 nanorod arrays, B. A. Gonfa, H. Zhao, J. Li, J. Qiu, M. Saidani, S. Zhang, R. Izquierdo, N. Q. Wu, M. A. El Khakani, D. Ma, Solar Energy Materials and Solar Cells, 124 (2014), 67-74.

110. Solar hydrogen generation by a CdS-Au-TiO2 sandwich nanorod array enhanced with Au nanoparticle as electron relay and plasmonic photosensitizer, J. Li, S. K. Cushing, P. Zheng, T. Senty, F. Meng, A. D. Bristow, A. Manivannan, N. Q. Wu, Journal of the American Chemical Society, 136 (2014), 8438-8449.

109. Asymmetric silver “nanocarrot” structures: solution synthesis and their asymmetric plasmonic resonances, H. Liang, D. Rossouw, H. Zhao, S. Cushing, H. Shi, A. Korinek, H. Xu, F. Rosei, W. Wang, N. Q. Wu, G. A. Botton, D. Ma, Journal of the American Chemical Society, 135 (2013), 9616-9619.

108. Plasmon-induced photonic and energy transfer enhancement of solar water splitting by a hematite nanorod array, J. Li, S. K. Cushing, P. Zheng, F. Meng, D. Chu, N. Q. Wu, Nature Communications, 4 (2013), 2651, DOI: 10.1038/ncomms3651.

107. Plasmon-enhanced solar energy harvesting, S. K. Cushing and N. Q. Wu, Interface, 22(2) (2013), 63-67 (feature article),(Journal Front cover). See the full paper online

106. Ag@Cu2O core-shell nanoparticles as visible-light plasmonic photocatalysts, J. Li, S. K. Cushing, J. Bright, F. Meng, T. R. Senty, P. Zheng, A. D. Bristow, N. Q. Wu, ACS Catalysis, 3 (2013), 47-51.

105. Solar hydrogen generation by nanoscale p-n junction of p-type molybdenum disulfide/n-type nitrogen-doped reduced graphene oxide, F. Meng, J. Li, S. K. Cushing, M. Zhi, N. Q. Wu, Journal of the American Chemical Society, 135 (2013), 10286-10289.

104. Photocatalytic water oxidation by hematite/reduced graphene oxide composites, F. Meng, J. Li, S. K. Cushing, J. Bright, M. Zhi, J. Rowley, Z. Hong, A. Manivannan, A. D. Bristow, N. Q. Wu, ACS Catalysis, 3 (2013), 746–751.

103. Photocatalytic hydrogen generation enhanced by band gap narrowing and improved charge carrier mobility in AgTaO3 by compensated co-doping, M. Li, J. Zhang, W. Dang, S. K. Cushing, D. Guo, N. Q. Wu, P. Yin, Physical Chemistry Chemical Physics, 15 (2013), 16220-16226.

102. Photocatalytic generation of hydrogen with visible-light nitrogen-doped lanthanum titanium oxides, F. Meng, J. Li, Z. Hong, A. Sakla, N. Q. Wu, Catalysis Today, 199 (2013), 48-52.

101. A reduced graphene oxide/Co3O4 composite for supercapacitor electrode, C. Xiang, M. Li, M. Zhi, A. Manivannan and N. Q. Wu, Journal of Power Sources, 226 (2013), 65-70.

100. Nanostructured carbon-metal oxide composite electrodes for supercapacitors: a review, M. Zhi, C. Xiang, J. Li, M. Li and N. Q. Wu, Nanoscale, 5 (2013), 72-88. (Invited feature article).

99. Selective stamp bonding of PDMS microfluidic devices to polymer substrates for biological applications, X. Li, N. Q. Wu, Y. Rojanasakul, Y. Liu, Sensors & Actuators A, 193 (2013), 186-192.

98. Dual detection of cancer biomarker CA125 using absorbance and electrochemical methods, I. Al-Ogaid, Z. P. Aguilar, S. Suri, H. Gou, N. Q. Wu, Analyst, 138 (2013), 5647-5653.

97. Three-dimensional hierarchical plasmonic nano-architecture enhanced surface-enhanced Raman scattering immuno-sensor for cancer biomarker detection in blood plasma, M. Li, S. K. Cushing, J. Zhang, S. Suri, R. Evans, W. P. Petros, L. F. Gibson, D. Ma, Y. Liu, and N. Q. Wu, ACS Nano, 7 (2013), 4967-4976.

96. Nanostructured sensors for detection of heavy metals: a review, M. Li, H. Gou, I. Al-Ogaidi, N. Q. Wu, ACS Sustainable Chemistry & Engineering, 1 (2013), 713-723, (Invited feature article).

95. Plasmonic nanorice antenna on triangle nano-array for surface-enhanced Raman scattering detection of hepatitis B virus DNA, M. Li, S. K. Cushing, H. Liang, S. Suri, D. Ma, N. Q. Wu, Analytical Chemistry, 85 (2013), 2072-2078.

94. Detection of lead (II) with a "turn-on" fluorescent biosensor based on energy transfer from CdSe/ZnS quantum dots to graphene oxide, M. Li, X. Zhou, S. Guo, and N. Q. Wu, Biosensors and Bioelectronics, 43 (2013), 69-74.

93. Fluorescent aptamer-functionalized graphene oxide biosensor for label-free detection of Mercury(II), M. Li, X. Zhou, W. Ding, S. Guo, and N. Q. Wu, Biosensors and Bioelectronics, 41 (2013), 889-893.

92. An bootstrapping-based statistical procedure for multivariate calibration of sensor arrays, Z. Geng, F. Yang, M. Li, N. Q. Wu, Sensors & Actuators B, 188 (2013), 440-453.

91. Dynamic calibration of an electrochemical sensor for accelerated analyte quantification, F. Yang, Z. Geng, A. Koneru, M. Zhi, H. Li, and N. Q. Wu, IEEE Sensors Journal, 13 (2013), 1192-1199.

90. Experimental and statistical analysis of surface charge, aggregation and adsorption behaviors of surface-functionalized titanium dioxide nanoparticles in aquatic system, C. Xiang, F. Yang, M. Li, M. Jaridi, and N. Q. Wu, Journal of Nanoparticle Research, 15 (2013), 1293-1304.

89.Interlaboratory evaluation of in vitro cytotoxicity and inflammatory responses to engineered nanomaterials: the NIEHS Nano GO Consortium, T. Xia, R. F. Hamilton, J.C. Bonner, E. D. Crandall, A. Elder, F. Fazlollahi, T.A. Girtsman, K. Kim, S. Mitra, S.A. Ntim, G. Orr, M. Tagmount, A.J. Taylor, D. Telesca, A. Tolic, C. D. Vulpe, A. J. Walker, X. Wang, F.A. Witzmann, N. Q. Wu, Y. Xie, J. I. Zink, A. Nel, A. Holian, Environmental Health Perspectives, 121 (2013), 683-690.

88. A two-stage experimental design for dose-response modeling in toxicology studies, K. Wang, F. Yang, D. Porter, N. Q. Wu, ACS Sustainable Chemistry & Engineering, 1 (2013), 1119-1128.

87. Purification and sidewall functionalization of multi-walled carbon nanotubes and resulting bioactivity in two macrophage models, R. F. Hamilton, C. Xiang, M. Li, I. Ka, F. Yang, D. Ma, D. W. Porter, N. Q. Wu, A. Holian, Inhalation Toxicology, 25(4) (2013), 199-210.

86. Nickel contamination on MWCNT is related to particle bioactivity but not toxicity in the THP-1 transformed macrophage model, R. F. Hamilton. T. A. Girtsman, C. Xiang, N. Q. Wu, and A. Holian, International Journal of Biomedical Nanoscience and Nanotechnology, 3(1/2) (2013), 107-126.

85. Differential mouse pulmonary dose and time course responses to titanium dioxide nanospheres and nanobelts, D. W. Porter, N. Q. Wu, A. F. Hubbs, R. R. Mercer, K. Funk, F. Meng, J. Li, M. G. Wolfarth, L. Battelli, S. Friend, M. Andrew, R. Hamilton, K. Sriram, F. Yang, V. Castranova, and A. Holian, Toxicological Sciences, 131(1) (2013), 179–193. (Journal Front cover).

84. Acute pulmonary dose-responses to inhaled multi-walled carbon nanotubes, D. W. Porter, A. F. Hubbs, B. T. Chen, W. McKinney, R. R. Mercer, M. G. Wolfarth, L. Battelli, N. Q. Wu, K. Sriram, S. Leonard, M. Andrew, P. Willard, S. Tsuruoka, M. Endo, T. Tsukada, F. Munekane, D. G. Frazer, V. Castranova, Nanotoxicology, 7 (2013), 1179-1194.

83. NLRP3 inflammasome activation in murine alveolar macrophages and related lung pathology is associated with MWCNT nickel contamination, R. F. Hamilton, M. Buford, C. Xiang, N. Q. Wu and A. Holian, Inhalation Toxicology, 24 (2012), 995-1008.

82. Selective filling of nanowell arrays fabricated using polystyrene nanosphere lithography with cytochrome P450 enzymes, L. Wollenberg, J. E. Jett, Y. Wu, D. Flora, N. Q. Wu, T. Tracy and P. Gannett, Nanotechnology, 23 (2012), 385101.

81. In-situ construction of titanate/silver nanoparticle/titanate sandwich nanostructure on metallic titanium surface for bacteriostatic and biocompatible implants, N. Ren, R. Li, L. Chen, G. Wang, D. Liu, Y. Wang, L. Zheng, W. Tang, X. Yu, H. Jiang, H. Liu and N. Q. Wu, Journal of Materials Chemistry, 22 (2012), 19151-19160.

80. Detection of adenosine triphosphate with an aptamer biosensor based on surface-enhanced Raman scattering, M. Li, J. Zhang, S. Suri, L. J. Sooter, D. Ma, N. Q. Wu, Analytical Chemistry, 84 (2012), 2837–2842.

79. Shape-dependent surface-enhanced Raman scattering in gold-Raman-probe-silica sandwiched nanoparticles for biocompatible applications, M. Li, S. K. Cushing, J. Zhang, J. Lankford, Z. P. Aguilar, D. Ma, N. Q. Wu, Nanotechnology, 23 (2012), 115501, (selected into "2012 Highlights Collection" of Nanotechnology).

78. Electrospun La0.8Sr0.2MnO3 nanofibers for a high-temperature electrochemical carbon monoxide sensor, M. Zhi, A. Koneru, F. Yang, A. Manivannan, J. Li, N. Q. Wu, Nanotechnology, 23 (2012), 305501.

77. Fingerprinting photoluminescence of functional groups in graphene oxide, M. Li, S. K. Cushing, X. Zhou, S. Guo and N. Q. Wu, Journal of Materials Chemistry, 22 (2012), 23374-23379.

76. Photocatalytic activity enhanced by plasmonic resonant energy transfer from metal to semiconductor, S. K. Cushing, J. Li, F. Meng, T. R. Senty, S. Suri, M. Zhi, M. Li, A. D. Bristow, N. Q. Wu, Journal of the American Chemical Society, 134 (2012), 15033–15041. See the full paper online

75. Photoelectrochemical performance enhanced by nickel oxide-hematite p-n junction photoanode, J. Li, F. Meng, S. Suri, W. Ding, F. Huang, N. Q. Wu, Chemical Communications, 48 (2012), 8213-8215.

74. Visible-light photocatalytic activity of nitrogen-doped La2Ti2O7 nanosheets originating from band gap narrowing, F. Meng, Z. Hong, J. Arndt, M. Li, M. Zhi, F. Yang, N. Q. Wu, Nano Research, 5 (2012), 213-221.

73. An intermediate temperature solid oxide fuel cell with electrospun nanofiber cathode, M. Zhi, S. Lee, N. Miller, N. H. Menzler, N. Q. Wu, Energy & Environmental Science, 5 (2012), 7066-7071.

72. Reduced graphene oxide/titanium dioxide composites for supercapacitor electrodes: shape and coupling effects, C. Xiang, M. Li, M. Zhi, A. Manivannan and N.Q. Wu, Journal of Materials Chemistry, 22 (2012), 19161-19167.

71. Highly conductive electrospun carbon nanofiber/MnO2 coaxial nano-cables for high energy and power density supercapacitors, M. Zhi, A. Manivannan, F. Meng, N. Q. Wu, Journal of Power Sources, 208 (2012), 345–353.

70. Single-crystalline Ni(OH)2 and NiO nanoplatelet arrays as supercapacitor electrodes, J. Li, W. Zhao, F. Huang, A. Manivannan, N. Q. Wu, Nanoscale, 3 (2011), 5103-5109.

69. Size-dependent energy transfer between CdSe/ZnS quantum dots and gold nanoparticles, M. Li, S. K. Cushing, Q. Wang, X. Shi, L. A. Hornak, Z. Hong, N. Q. Wu, The Journal of Physical Chemistry Letters, 2 (2011), 2125–2129.

68. Detection of mercury(II) by quantum dot-DNA-gold nanoparticle ensemble based nanosensor via nanometal surface energy transfer, M. Li, Q. Wang, X. Shi, L. A. Hornak, N. Q. Wu, Analytical Chemistry, 83 (2011), 7061–7065.

67. Electrochemical and optical biosensors based on nanomaterials and nanostructures: review, M. Li, R. Li, C. M. Li, N. Q. Wu, Frontiers in Bioscience, S3 (2011), 1308-1331, (invited review).

66. Optimum design of sensor arrays via simulation-based multivariate calibration, Z. Geng, F. Yang, N. Q. Wu, Sensors & Actuators B, 156 (2011), 854-862.

65. Controlled synthesis and better understanding of highly luminescent PbS/CdS core/shell quantum dots, H. Zhao, M. Chaker, N. Q. Wu, D. Ma, Journal of Materials Chemistry, 21 (2011), 8898-8904.

64. Origin of localized surface plasmon resonances in thin silver film over nanosphere patterns, S. K. Cushing, L. A. Hornak, J. Lankford, Y. Liu, N.Q. Wu, Applied Physics A, 103 (2011), 955-958.

63. Nanofiber scaffold for cathode of solid oxide fuel cell, M. Zhi, N. Mariani, R. Gemmen, K. Gerdes, and N. Q. Wu, Energy & Environmental Science, 4 (2011), 417-420.

62. Single crystalline la0.5Sr0.5MnO3 microcubes as cathode of solid oxide fuel cell, M. Zhi, G. Zhou, Z. Hong, J. Wang, R. Gemmen, K. Gerdes, A. Manivannan, D. Ma, N. Q. Wu, Energy & Environmental Science, 4 (2011), 139-144.

61. Temperature and impurity concentration effects on degradation of nickel/yttria-stabilized zirconia anode in PH3-containing coal syngas, M. Zhi, F. N. Cayan, I. Celik, R. Gemmen, S. R. Pakalapati, N. Q. Wu, Fuel Cells, 10 (2010 ), 174-180.

60. Shape-enhanced photocatalytic activity of single-crystalline anatase TiO2 (101) nanobelts, N. Q. Wu, J. Wang, D. Tafen, H. Wang., J.-G. Zheng, J. P. Lewis, X. Liu, S. S. Leonard, A. Manivannan, Journal of American Chemical Society, 132 (2010), 6679–6685.

59. Tuning the shape and thermoelectric property of PbTe nanocrystals by bismuth doping, Q. Zhang, T. Sun, F. Cao, M. Li, M. Hong, J. Yuan, Q. Yan, H. H. Hng, N. Q. Wu, X. Liu, Nanoscale, 2 (2010), 1256-1259.

58. Tuning the charge transfer property of PbS-quantum dot/TiO2-nanobelt nanohybrids via quantum confinement, D. Wang, H. Zhao, N. Q. Wu, A. El Khakani, D. Ma, Journal of Physical Chemistry Letters, 1(7) (2010), 1030-1035.

57. Direct fibrogenic effects of dispersed single-walled carbon nanotubes on human lung fibroblasts, L. Wang, Y. Rojanasakul, V. Castranova, A. Qiu, Y. Lu, J. F. Scabilloni, N. Q. Wu and R. R. Mercer, Journal of Toxicology and Environmental Health, 73(5) (2010), 410-422.

56. Mouse Pulmonary Dose- and Time Course-Responses Induced by Exposure to Multi-Walled Carbon Nanotubes, D. W. Porter, A. F. Hubbs, R, R. Mercer1, N. Q. Wu, M.G. Wolfarth, K. Sriram, S. Leonard, L. Battelli, D. Schwegler-Berry, S. Friend, M. Andrew, B.T. Chen, S. Tsuruoka, M. Endo and V. Castranova, Toxicology, 269 (2010), 136–147.

55. Particle length-dependent titanium dioxide nanomaterials toxicity and bioactivity, R. F. Hamilton, N. Q. Wu, D. Porter, M. Buford, M. Wolfarth, A. Holian, Particle and Fibre Toxicology, (2009), 6(35), doi:10.1186/1743-8977-6-35.

54. Origin of the Photocatalytic Activity of Nitrogen-doped TiO2 Nanobelts, J. Wang, D. N. Tafen, J. P. Lewis, Z. Hong, A. Manivannan, M. Zhi, M. Li, N. Q. Wu, Journal of the American Chemical Society, 131 (2009), 12290-12227.

53. Visible Light Photocatalytic Activity in Nitrogen-doped TiO2 Nanobelts, D. Tafen, J. Wang, N. Q. Wu, J. P. Lewis, Applied Physics Letters, 94 (2009), 093101.

52. Electrocatalytic Drug Metabolism by CYP2C9 Bonded to a Self-Assembled Monolayer Modified Electrode, M. Yang, J. L. Kabulski, L. Wollenberg, T. S. Tracy, M. Subramanian, D. Lederman, P. M. Gannett, N. Q. Wu, Drug Metabolism and Disposition, 37 (2009), 892-899.

51. A large-area nanoscale gold hemisphere pattern as a nanoelectrode array, H. Li and N. Q. Wu, Nanotechnology, 19(27),(2008), 275301. (Journal Front cover), (Highlighted by IOP Publishing)

50. Effects of coal syngas impurities on anodes of solid oxide fuel cells: a review, F. N. Cayan, M. Zhi, S. R. Pakalapati, I. Celik, N. Q. Wu, and R. Gemmen, J. Power Sources, 185 (2008), 595-602.

49. Electrochemical and microstructural analysis of Ni-yttria stabilized zirconia electrode operated in phosphorus-containing syngas, M. Zhi, X. Chen, H. Finklea, I. Celik, N. Q. Wu, J. Power Sources, 183 (2008), 485–490.

48. Up- and down-conversion cubic zirconia and hafnia nanobelts, C. Jiang, F. Wang, N. Q. Wu, X.G. Liu, Advanced Materials, 20 (2008), 4826-4829.

47. Sol-gel derived La0.6Sr0.4CoO3 nanoparticles, nanotubes, nanowires and thin films, J. Wang, A. Manivannan, N. Q. Wu, Thin Solid Films, 517 (2008), 582–587.

46. A lactate electrochemical biosensor with a titanate nanotube as direct electron transfer promoter, M. Yang, J. Wang, H. Li, J.-G. Zheng, N. Q. Wu, Nanotechnology, 19 (2008), 075502.(Highlighted by IOP Publishing)

45. Large-area well-ordered nanodot array pattern fabricated with self-assembled nanosphere template, H. Li, J. Low, K. S. Brown, N. Q. Wu, IEEE Sensors Journal, 8(6) (2008), 880-884.

44. Anion Bridged Nano-Sheet from Self-Assembled G-quadruplexes, C. Zhong, J. Wang, N. Q. Wu, J. T. Davis, G. Wu, X. Shi, Chem. Commun., (2007), 3148-3150.

43. Adsorption and Desorption of Stearic Acid Self-assembled Monolayer on Aluminum Oxide, M. Lim, K. Feng, X. Chen, N. Q. Wu, A. Raman, E. S. Gawalt, J. Nightingale, D. Korakakis, L. A. Hornak, A. Timperman, Langmuir, 23 (2007), 2444-2452.

42. AC impedance characterization of ZnO-nanobelt/Pd Schottky contact in ammonia, J. Xu, N.Q. Wu, C. Jiang, M. Zhao, J. Li, S. Li, S. X. Mao, Small, 2(12) (2006), 1458-1461.

41. Shape-Controlled Growth of Micron-Sized Gold Crystals by a Slow Reduction Method, X. Liu, N. Q. Wu, B. H. Wunsch, R. J. Barsotti, F. Stellacci, Small, 2 (2006), 1046-1050.

40. Directed fabrication of radially stacked multifunctional oxide heterostructures using soft electron beam lithography (soft-eBL), Z. Pan, S. Donthu, N. Q. Wu, S. Li, V. P. Dravid, Small, 2(2) (2006), 274-280.

39. Optical Absorption and Valence Band Photoemission from Uncapped CdTe Nanocrystals, G. L. Tan, N. Q. Wu, J. G. Zheng, U. Hommerich, D. Temple, J. Phys. Chem. B, 110 (2006) 2125-2130.

38. Stable aqueous dispersions of graphitic nanoplatelets via the reduction of exfoliated graphite oxide in the presence of poly(sodium 4-styrenesulfonate), S, Stankovich, R. D. Piner, X. Chen, N. Q. Wu, S. T. Nguyen and R. S. Ruoff, J. Mater. Chem., 16 (2006), 155-158.

37. Porous CuO-ZnO Nanocomposite for Sensing Electrode of High-Temperature CO Solid-State Electrochemical Sensor, N. Q. Wu, M. Zhao, J.-G. Zheng, C. Jiang, B. Myers, M. Chyu, S. Li, S. X. Mao, Nanotechnology, 16 (2005) 2878–2881.

36. Impedance-metric Pt/YSZ/Au-Ga2O3 sensors for CO detection at high-temperature, N. Q. Wu, Z. Chen, J. Xu, M. Chyu, S. X. Mao, Sensors & Actuators B, 110 (2005) 49–53.

35. Transport of Organic Solutes through Amorphous Teflon AF Films, H. Zhao, J. Zhang, N. Q. Wu, X. Zhang, K. Crowley, S. G. Weber, J. Am. Chem. Soc., 127 (2005), 15112-15119.

34. A facile scheme for fabricating solid state nanostructures using e-beam lithography and solution precursors, S. Donthu, Z. Pan, B. Myers, G. Shekhawat, N. Q. Wu, V. P. Dravid, Nano Letters, 5 (2005) 1710-1715.

33. Direct evidence of oxidized gold on supported gold catalysts, L. Fu, N.Q. Wu, J. H. Yang, F. Qu, D. L. Johnson, M.C. Kung, H.H. Kung, V. P. Dravid, J. Phys. Chem. B, 109 (2005), 3704-3709.

32. Interaction of fatty acid monolayers with cobalt nanoparticles, N. Q. Wu, L. Fu, M. Su, M. Aslam, K. C. Wong, V. P. Dravid, Nano Letters, 4 (2004), 383-386.

31. Crystalline boron nanoribbons: synthesis and characterization, T. T. Xu, J-G. Zheng, N.Q. Wu, A. W. Nicholls, J. R. Roth, D. A. Dikin, R. S. Ruoff, Nano letters, 4 (2004), 963-968.

30. Effect of N2 flow rate on morphology and structure of ZnO nanocrystals synthesized via vapor deposition, Z. Chen, N. Q. Wu Z. Shan, M. Zhao, S. Li, C. B. Jiang, S. X. Mao, Scripta Materialia, 52 (2005) 63-67.

29. Synthesis and characterization of MCM-41–supported Ba2SiO4 base catalyst, Q. C. Li, S. E. Brown, L. J. Broadbelt, J-G. Zheng, N. Q. Wu, Microporous and Mesoporous Materials, 59(2-3) (2003), 105-111.

28. Individually-addressed large-scale patterning of conducting polymers by localized electric field, M. Su, L. Fu, N. Q. Wu, M. Aslam, V. P. Dravid, Appl. Phys. Lett, 84(5) (2004), 828-830.

27. Dip-pen nanopatterning of photosensitive conducting polymer using a monomer ink, M. Su, M. Aslam, L. Fu, N. Q. Wu, V. P. Dravid, Appl. Phys. Lett, 84(21) (2004), 4200-4202.

26. Hot corrosion mechanism of composite alumina/yttria-stabilized zirconia coating in molten sulfate-vanadate salt, N. Q. Wu, Z. Chen and S. X. Mao, J. Am. Ceram. Soc., 88(3) (2005), 675-682.

25. Failure detection of thermal barrier coatings using impedance spectroscopy, N. Q. Wu, K. Ogawa, M. Chyu, S. X. Mao, Thin Solid Films, 457(2) (2004), 301-306.

24. Effect of Al2O3 overlay on hot-corrosion behavior of yttria-stabilized zirconia coating in molten sulfate-vanadate salt, Z. Chen, N.Q. Wu, J. Singh, S. X. Mao, Thin Solid Films, 443(1-2) (2003), 46-52.

23. Synthesis and optical characterization of CdTe nanocrystals prepared by ball milling process, G. L. Tan, U. Hömmerich, D. Temple, N. Q. Wu, J. G. Zheng, G. Loutts, Scripta Materialia, 48 (2003), 1469-1474.

22. Length scale controlled interfacial toughening and weakening in metal/ceramic layered materials, M. Z. Li, N. Q. Wu, S. X. Mao, Philosophical Magazine A, 82(5) (2002), 1049-1071.

21. Effect of strain gradients and heterogeneity on flow strength of particle reinforced metal-matrix composites, D. M. Duan, N. Q. Wu, M. Zhao, W. S. Slaughter, S. X. Mao, Transactions of The ASME (J. Eng. Mater. Tech.), 124(2)(2002), 167-173.

20. Length scale effect on mechanical behavior due to strain gradient plasticity, D. M. Duan, N. Q. Wu, W. S. Slaughter, Scott X. Mao, Mat. Sci. Eng. A, 303 (2001), 241.

19. Microstructure and Micro- and nano-mechanical behavior of laser-welded 6061 aluminium alloy blank, N. Q. Wu, , C. Xia, M. Li, N. Perrusquia, S. X. Mao, Transactions of the ASME (J. Eng. Mat. Tech.), 126(1) (2004), 8-13.

18. The Mechanism of Hydrogen Facilitated Anodic Dissolution Type Stress Corrosion Cracking (Theories and Experiments), S. X. Mao, B. Gu, N. Q. Wu, L. Qiao, Philosophical Magazine A, 81(7) (2001), 1813-1831.

17. Preparation of nano-sized amorphous Cu-Zr alloy particles by mechanochemical reaction, N. Q. Wu, L. Z. Su, Y. M. Yuan, J. M. Wu, Z. Z. Li, Mater. Sci. Eng. A, 257(2) (1998), 357-360.

16. Mechanosynthesis mechanism of TiC powder, N. Q. Wu, S. Lin, J. M. Wu, Z. Z. Li, Mater. Sci. Tech., 14(4) (1997), 287.

15. Mechanically driven synthesis of nanophase TiC/Ti-Al composite powder, N. Q. Wu, G.-X. Wang, W. Li, J. M. Wu, Z. Z. Li, Mater. Lett., 32 (1997), 259-262.

14. Microstructure and Fracture Toughness of 3Cr-3WV(Ta) Bainitic Steel, Z. Chen, Z. Shen, N. Q. Wu, M. J. Hua, V. K. Sikka, Scott X. Mao, Metallurgical & Materials Transactions A, 35A (2004), 1281-1288.

13. Processing and mechanical behaviour of TiAl/NiAl intermetallic composites produced by cryogenic mechanical alloying, S. X. Mao, N. A. McMinn, N. Q. Wu, Mat. Sci. Eng. A, 363 (2003) 275-289.

12. Amorphization in the Al-C system by mechanical alloying, N. Q. Wu, J. M. Wu, G.-X. Wang, Z. Z. Li, J. of Alloys & Compounds, 260, (1997), 121-126.

11. Formation of nanocrystalline f.c.c. phase by mechanically driven crystallization, N. Q. Wu, J. M. Wu, Z. Z. Li, G.-X. Wang, Mater. Trans., JIM, 38(3), (1997), 259-262.

10. Microstructure and sliding wear behavior of the PM alloy Al-10Ti after thermal exposure, N. Q. Wu, G.-X. Wang, Z. Z. Li, J. M. Wu, Wear, 203-204 (1997), 155-161.

9. Investigation of nanocrystalline formation TiC by ball milling of elemental titanium and carbon, N. Q. Wu, G.-X. Wang, J. M. Wu, Z. Z. Li, Int. J. Refractory Metals & Hard Materials, 15 (1997), 289-293.

8. Amorphization of carbide Al4C3 by mechanical milling, N. Q. Wu, J. Mater. Sci. Lett., 16 (1997), 1810-1812.

7. Formation of the metastable phase during ball milling of Al54Ti23C23, N. Q. Wu, Z. Z. Li, G.-X. Wang, J. M. Wu, J. Mater. Sci. Tech., (1997), No.6, 345-349.

6. Oxidation of the PM alloy Al-10Ti during sliding wear, N. Q. Wu, G.-X. Wang, Z. Z. Li, Transaction of Non-ferrous Metals Society of China, 7(1) (1997), 82-86.

5. In-situ observation of single-point wear of the PM alloy Al-10Ti, J. M. Wu, N. Q. Wu, G.-X. Wang, Z. Z. Li, Transaction of Non-ferrous Metals Society of China, 7(3) (1997), 69.

4. Dry sliding wear of the PM alloy Al-10Ti, N. Q. Wu, S. Lin, J. M. Wu, J. Q. Zhou, Z. Z. Li, Transaction of Non-ferrous Metals Society of China, 8(3) (1998), 421-423.

3. Preparation of Ti-Al based nanophase composite powder by mechanical alloying, N. Q. Wu, J. M. Wu, W. Li, G.-X. Wang, Z. Z. Li, Transaction of Non-ferrous Metals Society of China, 7(4) (1997), 1-4.

2. Microstructure of nano-sized Cu particle prepared by mechanical alloying, N. Q. Wu, L. Z. Su, Y. M. Yuan, Z. Z. Li, Transaction of Non-ferrous Metals Society of China, 8(4) (1998),610-612.

1. Reduction reaction in Al-CuO powder mixture driven by mechanical alloying, J. M. Wu, S. L. Zheng, Z. Z. Li, N. Q. Wu, Transactions of Nonferrous Metals Society of China, 9(4) (1999), 717-722.

 

Books And book Chapters
4. Book: J. Li and N. Q. Wu, Biosensors Based on Nanomaterials and Nanodevices, CRC Press, ISBN-13: 978-1466551510, (2014).

3. Chapter: “One-Dimensional Titanate and Titania Nanostructures Synthesized by Hydrothermal Process”, J. Wang, N. Q. Wu, in "Nanotechnology Research Advances", edited by X. Huang, Nova Science Publishers, Inc., New York, ISBN: 978-1-60021-902-3, (2008).

2.Chapter: N. Q. Wu and H. Li, “One-dimensional Nanostructures for Chemical Sensors and Biosensors”, in “Handbook of Nanoceramics and Their Based Nanodevices”, edited by Tseung-Yuen Tseng; Hari Singh Nalwa, American Scientific Publishers, USA, ISBN: 1588831140, (in press, 2009).

1.Chapter: D. Ma, L.S. Schadler, R. W. Siegel, N. Q. Wu, D. F. Rogers, B. C. Benicewiczd, "Improving Dielectric Properties of Polymer Nanocomposites through Nanoparticle Surface Modification" in book "Frontal Nanotechnology Research", edited by Martin V. Berg, Nova Science Publishers, Inc., 2006, ISBN: 1600212123.

 

 

Conference Papers, Posters and Presentations

(For the complete list, please click here)

 

Patents and Disclosures
4. Nanostructured Electrochemical Biosensor with Aptamer as Molecular Recognition Probe, N. Q. Wu, P. Gannett, W. Petros, D. Flynn, US Patent 60/875,263, (2007).

3. Disclosure pending: Lawrence A. Hornak,A. Timperman, D. Korakakis, X. Shi, T. Myers, N. Q. Wu, X. Cao, Integrated Molecular Detection Device Using Photonic Crystal Fluidic and Optical Excitation Focusing and Resonant Fluorescence Emission Enhancement, (2007).

2. Synthesis of ultra-fine TiC powder, N. Q. Wu, G.-X. Wang, Z. Z. Li, J. M. Wu, Chinese Patent 96102237.X, (1996).

1. Rare earth-containing Cr steel used in corrosive-wear environment, Z. Z. Li, G. P. ling, T. G. Yao, N. Q. Wu, Chinese Patent Zl92105228.6, (1992).

 

 
 

Last Updated 01/19/2020