{"id":23,"date":"2013-05-23T16:51:21","date_gmt":"2013-05-23T16:51:21","guid":{"rendered":"https:\/\/www2.chem.umd.edu\/groups\/wang\/?page_id=23"},"modified":"2026-03-05T20:07:38","modified_gmt":"2026-03-06T00:07:38","slug":"publications","status":"publish","type":"page","link":"https:\/\/www2.chem.umd.edu\/groups\/wang\/publications\/","title":{"rendered":"Refereed Journal Articles"},"content":{"rendered":"

To request reprints not available on web, please contact YuHuang Wang\u00a0<\/a>\u00a0You may access publications through\u00a0Google Scholar<\/a> and check out cover arts<\/a> and press reports<\/a> that feature our research work.<\/p>\n

\u201cCapturing Exciton-Proton Collisions in Confined Water<\/a>,\u201d Ziyi Wang, Jacek Klos, Jacob Fortner, YuHuang Wang* (submitted 2026<\/strong>).<\/p>\n

\u201cWriting DNA Bases into sp3 Quantum Defects<\/a>,\u201d Kizhakke Veetil, Abhindev; Kotsanos, Alexander; Wang, Anna; Hajikarimi, Fatemeh; Fortner, Jacob; Zhulficar, Zhulfaa; Afriyie, Ebenezer; Wang, YuHuang*. Submitted 2026<\/strong>.<\/p>\n

“Overcoming Van der Waals Bundling: Molecular Wedges Enable Sonication-Free Dispersion of Single-Walled Carbon Nanotubes.” Lee, Seungyeop; Wang, Ziyi; Afriyie, Ebenezer; Wang, Jiajun; Alibrahim, Ayman; Jagota, Anand; Wang, YuHuang.* ACS Nano<\/em> 2026<\/strong>, ASAP.<\/p>\n

“Fluorescent Ultrashort Nanotubes.” Eller, Benjamin; Zhulficar, Zhulfaa; Hajikarimi, Fatemeh; Wang, YuHuang.* Accounts of Chemical Research<\/a><\/em> 2026<\/strong>, ASAP (Front Cover).<\/p>\n

“Quantum Defects in Carbon Nanotubes as Single-Photon Sources,” Yih-Ren Chang, Jacob Fortner, Vigneshwaran Chandrasekaran, Brendan J. Gifford, Braden M. Weight, Stephen K. Doorn, Han Htoon*, Yuichiro K. Kato*, Sergei Tretiak*, YuHuang Wang.* Communications Materials<\/a><\/em> 2026<\/strong>, 7, 55. Nature Portfolio Collection on Materials for quantum sensing and computing (Invited review article)<\/p>\n

\u201cClar\u2019s rule reveals the topological origin of edge states in \u03c0<\/em>-conjugated systems,\u201d Benjamin Eller, Jacob Fortner, YuHuang Wang*. The Journal of Physical Chemistry Letters<\/a><\/em> 2025<\/strong>, 16, 13284-13288 (Front Cover).<\/p>\n

\u201cDefects That Shine: The Rise of Organic Color Centers in Carbon Nanotubes.\u201d YuHuang Wang, The Electrochemical Society Interface<\/a><\/em> 2025<\/strong>, 34, 65-69 (Front Cover).<\/p>\n

\u201cIon Transport in Carbon Nanotube Porins with a pH-Switchable Entrance Gate.\u201d Abdullah, J.; Andrade, M. C.; Zhulficar, Z.; Berrens, M.; Li, Z.; Azom, G.; Yao, Y.-C.; Rizer, Z.; Li, Y.; Zhao, S.; Pham, T. A.*; Wang, Y.*; Noy, A.* Nano Letters<\/a> <\/em>2025<\/strong>, 25, 46, 16421\u201316426.<\/p>\n

\u201cChemical Defects as Li+<\/sup> Ion Traps: A Theoretical Study.\u201d DongYoon Shin, Jacek K\u0142os, Jacob Fortner, and YuHuang Wang. Chemical Communications<\/a><\/em> 2025<\/strong>, 61<\/em><\/strong>,<\/strong> 19441-19444 (invited ChemComm themed collection \u2013 Advances in Low-Dimensional Materials for Optoelectronic Devices, Energy Catalysis, and Storage, edited by Dechao Geng, Claudia Backes, Emilio M. P\u00e9rez.)<\/p>\n

\u201cCircularly polarized laser from three-dimensional perovskite induced by intramolecular interaction.\u201d Zicheng Li, Xinyu Duan, Tao Man, Nan Gong, Zehui Zhou, Ke Sun, Yi Yang, Ning Liu, Xuehui Xu, Junjie Cui, Xiaofeng Liu, Mi Yan, Xiangyu Sun, Zhi Chen, Gongxun Bai, YuHuang Wang, Yang (Michael) Yang, Jianrong Qiu, Beibei Xu.* \u00a0InfoMat<\/a><\/em> 2025<\/strong>;e70061.<\/p>\n

\u201cEnhanced performance of lithium-ion battery cathodes using a composite conductive network of CNTs, GQDs, and GNRs embedded in Li\u2081.\u2082Mn\u2080.\u2085\u2084Ni\u2080.\u2081\u2083Co\u2080.\u2081\u2083O\u2082 (LMNCO).\u201d Latif, H.*; Sabah, N. U.; Sattar, A.; \u00d6ktem, A. S.; Uyan\u0131k, M. S.; Topa\u00e7, E.; Anjum, D. H.; Wang, Y.; Arshad, M.; Alam, M. M.\u00a0 Journal of Energy Storage<\/a> <\/em>2025<\/strong>, 106<\/em>, 114823.<\/p>\n

\u201cLow-Temperature Synthesis of Weakly Confined Carbyne inside Single-Walled Carbon Nanotubes.\u201d Bo-Wen Zhang, Xi-Yang Qiu, Yicheng Ma, Qingmei Hu, Aina Fit\u00f3-Parera, Ikuma Kohata, Ya Feng, Yongjia Zheng, Chiyu Zhang, Yutaka Matsuo, YuHuang Wang, Shohei Chiashi, Keigo Otsuka, Rong Xiang, Dmitry I. Levshov, Sofie Cambr\u00e9, Wim Wenseleers, Slava V. Rotkin, and Shigeo Maruyama.* ACS Nano<\/a><\/em> 2025<\/strong>, 19<\/em>, 13, 12996\u201313006.<\/p>\n

“Scaling Law of Quantum Confinement in Single-Walled Carbon Nanotubes,” Benjamin Eller, Charles Clark, and YuHuang Wang. The Journal of Chemical Physics<\/a><\/em> 2025<\/strong>, 162, 144303. arXiv:2410.21672<\/a><\/p>\n

\u201c[2 + 2] Cycloaddition Produces Divalent Organic Color-Centers with Reduced Heterogeneity in Single-Walled Carbon Nanotubes.\u201d Qu, H.; Han, Y.; Fortner, J.; Wu, X.; Kilina, S.; Kilin, D.; Tretiak, S.; Wang, Y.*, J. Am. Chem. Soc.<\/a> <\/em>2024<\/strong>, 146, 23582\u221223590.<\/p>\n

“Defect Pairs in Boron Nitrides That Exhibit Strong Electronic Transitions in the Infrared.” Lee, Seungyeop; Fortner, Jacob; Wang, YuHuang.* Journal of Physical Chemistry C<\/a><\/em> 2024<\/strong>, 128, 28, 11672\u201311678.<\/p>\n

\u201cCavity-enhanced photon indistinguishability at room temperature and telecom wavelengths\u201d Lukas Husel, Julian Trapp, Johannes Scherzer, Xiaojian Wu, Peng Wang, Jacob Fortner, Manuel Nutz, Thomas H\u00fcmmer, Borislav Polovnikov, Michael F\u00f6rg, David Hunger, YuHuang Wang, Alexander H\u00f6gele. Nature Communications<\/em><\/a> 2024<\/strong>, 15: 3989.<\/p>\n

\u201cProgramming sp3 Quantum Defects along Carbon Nanotubes with Halogenated DNA.\u201d Wu, X.; Kim, M.; Wang, L.; Kizhakke Veetil, A.; Wang, Y.* J. Am. Chem. Soc.<\/a><\/em>\u00a02024<\/strong>, 146, 13, 8826\u20138831.<\/p>\n

\u201cQuantum defect sensitization via phase-changing supercharged antibody fragments.\u201d Kim, Mijin; McCann, James; Fortner, Jacob; Randall, Ewelina; Chen, Chen; Chen, Yu; Yaari, Zvi; Wang, YuHuang; Koder, Ronald*; Heller, Daniel*. J. Am. Chem. Soc.<\/a><\/em> 2024<\/strong>, 146, 18, 12454\u201312462.<\/p>\n

\u201cSurfactant-Aided Stabilization of Individual Carbon Nanotubes in Water Around the Critical Micelle Concentration.\u201d Wang, Peng; Misra, Rahul Prasanna; Zhang, Chiyu; Blankschtein, Daniel*; Wang, YuHuang*. Langmuir<\/a><\/em> 2024<\/strong>, 40, 1, 159\u2013169 (Journal Cover).<\/p>\n

“Direct Writing of Aligned Carbon Nanotubes across a Trench” Barnes, Benjamin; Wang, Ziyi; Alibrahim, Ayman; Lin, Qinglin; Wu, Xiaojian; Wang, YuHuang*. ACS Nano<\/a><\/em> 2023<\/strong>, 17, 22, 22701\u201322707.<\/p>\n

\u201cSpontaneous Sieving of Water from Ethanol using Angstrom-sized Nanopores.\u201d Rayabharam, Archith; Qu, Haoran; Wang, YuHuang*; Aluru, Narayana R.* Nanoscale<\/a><\/em> 2023<\/strong>, 15<\/strong>, 12626 \u2013 12633. DOI: 10.1039\/D3NR02768F<\/p>\n

\u201cFunctional PDMS elastomer: latest advances in design strategy, materials science, and emerging applications.\u201d Shaopeng Li, Jiaqi Zhang, Jian He, YuHuang Wang, Zhongjie Huang,* Huan Pang,* Yiwang Chen. Advanced Science<\/em><\/a> 2023<\/strong>, 10<\/em>, 2304506.<\/p>\n

\u201cRational structural design of polymer pens for energy-efficient photoactuation.\u201d Zhongjie Huang*, Le Li, Taishan Yin, Keith A Brown*, YuHuang Wang* Polymers<\/a><\/em> 2023<\/strong>, 15, 3595.<\/p>\n

\u201cNanosensor-based monitoring of autophagy-associated lysosomal acidification in vivo,\u201d Kim, M.; Chen, C.; Yaari, A, Z.; Frederiksen, R.; Randall, E.; Wollowitz, J.; Cupo, C.; Wu, X.; Shah, J.; Worroll, D.; Lagenbacher, R. E.; Goerzen, D.; Li, Y.M.; An, H.; Wang, Y.; Heller, D.A. Nature Chemical Biology<\/a><\/em> 2023<\/strong> in press (Featured by Nat. Chem. Biol. News & Views<\/a><\/em>)<\/p>\n

\u201cFluids and Electrolytes under Confinement in Single-Digit Nanopores,\u201d Narayana Aluru, Fikret Aydin, Martin Z. Bazant, Daniel Blankschtein, Alexandra H. Brozena, J. Pedro de Souza, Menachem Elimelech, Samuel Faucher, John T. Fourkas,* Matthias Kuehne, Heather J. Kulik, Hao-Kun Li, Zhongwu Li, Arun Majumdar, Joel Martis, Rahul Prasanna Misra, Aleksandr Noy, Tuan Anh Pham, Haoran Qu, Archith Rayabharam, Mark A. Reed, Cody L. Ritt, Zuzanna Siwy, Michael S. Strano,* YuHuang Wang,* Cheng Zhan, Ze Zhang. Chemical Reviews<\/a><\/em> 2023<\/strong>, 123, 2737-2831 (Journal Cover)<\/p>\n

\u201cLocalized Photoactuation of Polymer Pens for Nanolithography.\u201d Huang, Z.*; Li, S.; Zhang, J.; Pang, H.; Ivankin, A.; Wang, Y.* Molecules<\/a><\/em> 2023<\/strong>, 28<\/em>, 1171.<\/p>\n

\u201cVan der Waals SWCNT@BN Heterostructures Synthesized from Solution-Processed Chirality-Pure Single-Wall Carbon Nanotubes.\u201d Chiyu Zhang, Jacob Fortner, Peng Wang, Jeffrey A. Fagan, Shuhui Wang, Ming Liu, Shigeo Maruyama, YuHuang Wang*. ACS Nano<\/a><\/em> 2022<\/strong>, 16, 18630-18636.<\/p>\n

\u201cQuantum Coupling of Two Atomic Defects in a Carbon Nanotube Semiconductor\u201d Jacob Fortner, YuHuang Wang, The Journal of Physical Chemistry Letters<\/a><\/em> 2022, <\/strong>13, 8908\u20138913<\/p>\n

“Can armchair nanotubes host organic color centers?” Benjamin Eller,* Jacob Fortner, Jacek Klos, YuHuang Wang*, Charles W. Clark* Journal of Physics<\/a>: Condensed Matter<\/em> 2022<\/strong>, 34, 464004 (Special Issue on Materials Science of Quantum Computing<\/a>; invited)<\/p>\n

\u201cEngineering Defects with DNA.\u201d Wang, Y. H. Science<\/a><\/em> 2022<\/strong>, 377, 473-474.<\/p>\n

\u201cParallel field-effect nanosensors detect trace biomarkers instantly at physiological high ionic strength conditions.\u201d Barnes, B.; Wang, P.; Wang, Y. H. ACS Sensors<\/a><\/em> 2022<\/strong>, 7, 9, 2537\u20132544 (Journal Cover).<\/p>\n

\u201cQuantum Defects: What pairs with the aryl group when breaking a C=C bond on sp2 carbon lattices?\u201d Wang, P.; Fortner, J.; Luo, H.; K\u0142os, J.; Wu, X.; Qu, H.; Chen, F.; Li, Y.; Wang, Y.H. J. Am. Chem. Soc.<\/a><\/em> 2022<\/strong>, 144, 29, 13234-13241.<\/p>\n

\u201cReconfiguring Organic Color Centers on the sp2 Carbon Lattice of Single-Walled Carbon Nanotubes.\u201d Qu, H.; Wu, X.; Fortner, J.; Kim, M.; Wang, P.; Wang, Y.H.*\u00a0ACS Nano<\/a><\/em> 2022<\/strong>, 16, 2, 2077\u20132087.<\/p>\n

\u201cDetection of ovarian cancer via the spectral fingerprinting of quantum-defect-modified carbon nanotubes in serum by machine learning\u201d \u00a0Kim, M.; Chen, C.; Wang, P.; Yang, Y.; Mulvey, J.; Wun, C.; Antman-Passig, M.; Luo, H.; Cho, S.; Long-Roche, K.; Ramanathan, L. V.; Jagota, A.; Zheng, M.; Wang, Y.; Heller, D. A.* Nature Biomedical Engineering<\/a><\/em> 2022<\/strong>, 6, 267\u2013275 (Journal Cover).<\/p>\n

\u201cFormation of Organic Color Centers in Air-Suspended Carbon Nanotubes Using Vapor-Phase Reaction\u201d D. Kozawa,* X. Wu, A. Ishii, J. Fortner, K. Otsuka, R. Xiang, T. Inoue, S. Maruyama, Y. Wang, Y. K. Kato*. Nature Communications<\/a><\/em> 2022<\/strong>, 13: 2814.<\/p>\n

\u201cTunable photo-patterning of organic color-centers\u201d Dou, Q.; Xu, B.B.*; Wu, X.J.; Mo, J.; Wang, Y.H.* Materials & Design<\/a><\/em> 2021<\/strong>, 212, 110252.<\/p>\n

“Cleanly Removable Surfactant for Carbon Nanotubes”, Zhang, Chiyu; Wang, Peng; Barnes, Benjamin; Fortner, Jacob; Wang, YuHuang* Chemistry of Materials<\/a><\/i> 2021<\/b>, 12, 4551\u20134557.<\/p>\n

\u201cElectroluminescence from 4-nitroaryl organic color centers in semiconducting single-wall carbon nanotubes,\u201d Xu, B.*; Wu, X.J.; Kim, M.; Wang, P.; Wang, Y.* Journal of Applied Physics<\/a><\/i> 2021<\/b>, 129, 044305. (Special Topic on Physics and Applications of Nanotubes, guest edited by Shigeo Maruyama, Michael Arnold, and Ralph Krupke, in collaboration with JAP Associate Editors Masayoshi Tonouchi and Lian-Mao Peng).<\/p>\n

\u201cBeyond Color: The New Carbon Ink.\u201d Wang, P.; Barnes, B.; Huang, Z.; Wang, Z.; Wang, Y.* Adv. Mater.<\/a><\/i> 2021<\/b>, 2005890 (invited review article).<\/i><\/p>\n

\u201cMassively Parallel, Cantilever-free Atomic Force Microscopy.\u201d Cao, W.; Alsharif, N.; Zhongjie Huang, Z.; Alice White, A.; Wang, Y.; Brown, K.* <\/b>Nature Communications<\/a><\/i>\u00a02021<\/b>, 12, 393.<\/p>\n

\u201cSelective filling of n-hexane in a tight nanopore.\u201d Haoran Qu, Archith Rayabharam, Xiaojian Wu, Peng Wang, Yunfeng Li, Jeffrey Fagan, Narayana R. Aluru, YuHuang Wang.* Nature Communications<\/i><\/a> 2021<\/b>, 12<\/i>, 310.<\/p>\n

\u201cApplications of Cellulose Nanomaterials in Stimuli-Responsive Optics.\u201d Peng, Z.*; Lin, Q.; Tai, Y. A.; Wang, Y.H.* Journal of Agricultural and Food Chemistry<\/a><\/i> 2020<\/b>, 68, 46, 12940-12955. (Invited review article. Special Issue: Highlights of AGFD program at 258th ACS National Meeting, San Diego)<\/p>\n

\u201cA flexible mesofiber-based fast current collector.\u201d Henry, H.K., Hu, J., Cheng, X. Hwang, W.; Briber, R.*; Wang, Y.H.*; Lee, S. B.* J. Mater. Sci<\/a>. <\/i>2020<\/b>, <\/i>55<\/i>, 11391\u201311402.<\/p>\n

\u201cBanning carbon nanotubes would be scientifically unjustified and damaging to innovation.\u201d Heller, D. A.*; Jena, P. V.; Pasquali, M.; Kostarelos, K.; Delogu, L. G.; Meidl, R. E.; Rotkin, S. V.; Scheinberg, D. A.; Schwartz, R. E.; Terrones, M.; Wang, Y.; Bianco, A.; Boghossian, A. A.; Cambr\u00e9, S.; Cognet, L.; Corrie, S. R.; Demokritou, P.; Giordani, S.; Hertel, T.; Ignatova, T.; Islam, M. F.; Iverson, N. M.; Jagota, A.; Janas, D.; Kono, J.; Kruss, S.; Landry, M. P.; Li, Y.; Martel, R.; Maruyama, S.; Naumov, A. V.; Prato, M.; Quinn, S. J.; Roxbury, D.; Strano, M. S.; Tour, J. M.; Weisman, R. B.; Wenseleers, W.; Yudasaka, M. Nature Nanotechnology<\/a> <\/i>2020,<\/b> 15<\/i> (3), 164-166.<\/p>\n

\u201cDry-Drawability of Few-Walled Carbon Nanotubes Grown by Alcohol Chemical Vapor Deposition.” Okada, M.*; Igimi, S.; Inoue, T.; Cheng, X. Y.; Xiang, R.; Chiashi, S.; Inoue, Y.; Wang, Y.H.; Maruyama, S. J. Phys. Chem. C<\/a><\/i> 2020<\/b>, 124, 16729-17440.<\/p>\n

\u201cHidden fine structure of quantum defects revealed by single carbon nanotube magneto-photoluminescence.\u201d Kim, Y.; Goupalov, S. V.; Weight, B. M.; Gifford, B.J.; He, X.; Saha, A.; Kim, M.; Ao, G.; Wang, Y.H.; Zheng, M.; Tretiak, S.; Doorn, S. K.*<\/sup>, Htoon, H.*<\/sup> ACS Nano<\/a><\/i> 2020<\/b>, 14, 3, 3451\u20133460.<\/p>\n

\u201cPhotolithography of Organic Color-Centers.\u201d Huang, Z.; Powell, L. R.; Wu, X.; Kim, M.; Qu, H.; Ng, A. L.; Wang, Y.* Advanced Materials<\/a><\/i> 2020<\/b>, 1906517.<\/p>\n

\u201cProbing the Electrical Double Layer by operando X-ray Photoelectron Spectroscopy through a Carbon Nanotube-Strengthened Graphene Window.\u201d Wang, P.+<\/sup>; Li, Y.+<\/sup>; Wang, L.; Klos, J.; Peng, Z.; Kim, N.; Bluhm, H.; Gaskell, K.; Liu, P.; Lee, S.B.; Eichhorn, B.*; Wang, Y.* EcoMat<\/a><\/i> 2020<\/b>; 2:e12023. https:\/\/doi.org\/10.1002\/eom2.12023. Also check out the force field deposited at https:\/\/zenodo.org\/record\/3696970#.Xq94pqhKhPZ<\/a><\/p>\n

\u201cFluorescent sp3\u00a0Defect-Tailored Carbon Nanotubes Enable NIR-II Single Particle Imaging in Live Brain Slices at Ultra-Low Excitation Doses.\u201d Mandal, A.; Wu, X.; Ferreira, J. S.; Kim, M.; Powell, L. R.; Kwon, H.; Groc, L.; Wang, Y.H.; Cognet, L.*.\u00a0<\/i><\/a>Scientific Reports<\/a><\/i>\u00a02020<\/strong>,\u00a010<\/i>, 1-9.\u00a0doi:\u00a0https:\/\/doi.org\/10.1038\/s41598-020-62201-w<\/a>.<\/p>\n

\u201cQuantitative Infrared Spectroscopy of Environmentally Sensitive and Rough Materials.\u201d Xu, B.B.; Peng, Z.W.; Wu, Z.P.; Zhang, X.A.; Wang, Y. H.* Reviews of Scientific Instruments<\/a><\/i> 2019<\/b>, 90, 113102.<\/p>\n

\u201cDesigning textile architectures for high energy-efficiency human body sweat- and cooling-management.\u201d Kun Fu; Zhi Yang; Yong Pei; Yongxin Wang; Beibei Xu; YuHuang Wang; Bao Yang; Liangbing Hu*. Advanced Fiber Materials<\/a><\/i> 2019<\/b>, 1<\/i>, 61\u201370.<\/p>\n

\u201cUltrafast Exciton Trapping at sp3 Quantum Defects in Carbon Nanotubes.\u201d Sykes, M.; Kim, M.; Wu, X.J.; Wiederrecht, G.P.; Peng, L.; Wang, Y.H.; Gosztola, D. J.; Ma, X.D.* ACS Nano<\/a><\/i> 2019<\/b>, 13, 13264-13270.<\/p>\n

\u201cProbing Trions at Chemically Tailored Trapping Defects.\u201d Kwon, H.J.; Kim, M.; Nutz, M; Hartmann, N.F.; Perrin, V.; Meany, B.; Hofmann, M. S.; Clark, C.W.; Htoon, H.; Doorn, S.K.; H\u00f6gele, A.; Wang, Y.H.*<\/sup> ACS Central Science<\/a><\/i> 2019<\/strong>, 5, 1786-1794. (Supplementary Journal Cover)<\/p>\n

\u201cOne-pot, large-scale synthesis of organic color center-tailored semiconducting carbon nanotubes.\u201d Luo, H.B.; Wang, P.; Wu, X.J.; Qu, H.; Ren, X.M.; Wang, Y. H.* ACS Nano<\/a><\/i> 2019<\/b>, 13, 1378417-8424.<\/p>\n

\u201cChemically-tailored Carbon Nanotubes as a New Toolbox for Biomedicine and Beyond.\u201d Barnes, B.; Brozena, A.; Wang, Y.H. The Biochemist<\/a><\/i>. 2019<\/b>, 41<\/i> (4), page 10-13 (A special issue celebrating Elements in Biochemistry<\/i> from t<\/i>he Biochemical Society<\/i>; invited perspective article).<\/p>\n

\u201cPhoton correlation spectroscopy of luminescent quantum defects in carbon nanotubes.\u201d Nutz, M.; Zhang, J.X.; Kim, M.; Kwon, H.; Wang, Y.H.; H\u00f6gele, A.* Nano Letters<\/a><\/i> 2019<\/b>, 19, 10, 7078-7084.<\/p>\n

\u201cSingle-defect spectroscopy in the shortwave infrared.\u201d Wu, X.J.; Kim, M.J.; Qu, H.; Wang, Y.H.*\u00a0Nature Communications<\/em><\/a>\u00a02019<\/strong>, 10:\u00a02672.\u00a0<\/ins><\/p>\n

\u201cControlling the optical properties of carbon nanotubes with organic colour-centre quantum defects.\u201d Brozena, A.; Kim, M.J.; Powell, L. R.; Wang, Y. H.*.\u00a0Nature Reviews Chemistry<\/a><\/i>\u00a02019<\/strong>, 3,\u00a0375\u2013392. DOI: 10.1038\/s41570-019-0103-5.<\/p>\n

\u201cFluorescent sp3<\/sup> Defect-Tailored Carbon Nanotubes Enable NIR-II Single Particle Imaging in Live Brain Slices at Ultra-Low Excitation Doses.\u201d Amit Mandal, Xiaojian Wu, Joana S. Ferreira, Mijin Kim, Lyndsey R. Powell, Hyejin Kwon, Laurent Groc, YuHuang Wang, Laurent Cognet*<\/sup>. <\/i>2019<\/strong>, BioRxiv 2019<\/a>.<\/p>\n

\u201cCritical Knowledge Gaps in Mass Transport Through Single-Digit Nanopores: a Review and Perspective.\u201d Samuel J. Faucher, Narayana R. Aluru, Martin Z. Bazant, Daniel Blankschtein, Alexandra H. Brozena, John Cumings, J. Pedro de Souza, Menachem Elimelech, Razi Epsztein, John T. Fourkas, Heather Kulik, Amir Levy, Arun Majumdar, Charles Martin, Michael McEldrew, Rahul Prasanna Misra, Aleksandr Noy, Tuan Anh Pham, Ananth Govind Rajan, Mark A. Reed, Eric Schwegler, Zuzanna S. Siwy, YuHuang Wang, and Michael Strano. Journal of Physical Chemistry C<\/a><\/i> 2019<\/b>, 123, 21309-21326 (invited review article; journal cover).<\/p>\n

\u201cSelf-sorting of 10 \u03bcm Long Single-Walled Carbon Nanotubes in Aqueous Solution.\u201d Wang, P.; <\/b>Barnes, B.; Wu, X.; Qu, H.; Zhang, C.; Headrick, R.; Pasquali, M.; Wang, Y.H.* Advanced Materials<\/i><\/a>\u00a02019<\/b>, 31, 1901641.<\/b><\/p>\n

\u201cFluorescent Ultrashort Nanotubes from Defect-Induced Chemical Cutting.\u201d Li, Yunfeng; Wu, Xiaojian; Kim, Mijin; Qu, Haoran; Fortner, Jacob; Wang, YuHuang*. Chemistry of Materials<\/a><\/i> 2019<\/strong>, 31, 4536-4544.<\/p>\n

\u201cOptical Effects of Divalent Functionalization of Carbon Nanotubes.\u201d Gifford, Brendan; He, Xiaowei; Kim, Mijin; Kwon, Hyejin; Saha, Avishek; Sifain, Andrew; Wang, YuHuang; Htoon, Han; Kilina, Svetlana; Doorn, Stephen*; Tretiak, Sergei.* Chemistry of Materials<\/a><\/i> 2019<\/strong>, 31, 6950-6961.<\/p>\n

\u201cDynamic Gating of Infrared Radiation in a Textile.\u201d Zhang, X.; Yu, S.J.; Xu, B.B.; Li, M.; Peng, Z. W.; Wang, Y.; Deng, S.L.; Wu, X.J.; Wu, Z.P.; Ouyang, M.*; Wang, Y. H.* Science<\/a><\/i> 2019<\/strong>, 363<\/i>, 619-623. Read a free copy of Reprint<\/a> & Full Text<\/a> courtesy of Science<\/em>.\u00a0This article is widely reported by news media including C&EN<\/em>, New Scientist<\/em>, MIT Technology Review<\/em>, Scientific American<\/em>, The Washington Post<\/em>, BBC<\/em>, The Times<\/em>, and many others as tracked by Science at its Info & Metrics<\/a>.<\/p>\n

\u201cPlasmonic-Enhanced Cholesteric Films: Co-assembling Anisotropic Gold Nanorods with Cellulose Nanocrystals.\u201d Cheng, Zheng; Ma, Yi; Yang, Lin; Cheng, Feng; Huang, Zhongjie; Natan, Avi; Li, Hongyan; chen, Yong; Cao, Daxian; Huang, Zhifeng; Wang, YuHuang; Liu, Yongmin; Zhu, Hongli.*\u00a0Advanced Optical Materials<\/a><\/i> 2019<\/b>, 1801816. (Journal Cover)<\/p>\n

\u201cDesign of Elastomer-CNT Film Photoactuators for Nanolithography.\u201d Li, L.; Huang, Z.J.; Wang, Y.H.*; Brown, K.A.* Polymers<\/a><\/i> 2019<\/b>, 11, 314 (Special Issue Lithography with polymer stamp techniques<\/a>. guest editors: Michael Hirtz, Harold Fuchs), invited.<\/p>\n

\u201cStretchable Transparent Conductive Films from Long Carbon Nanotube Metals.\u201d Wang, P.; Peng, Z.; Li, M.X.; Wang, Y. H.* Small<\/a><\/i> 2018<\/strong>, 14<\/i>, 1802625 (Frontispiece).<\/p>\n

\u201cConcentrated Electrolytes Stabilize Bismuth-Based Potassium-Ion Batteries.\u201d Zhang, R.; Bao, J.Z.; Wang, Y.H.; Sun, C.-F.* Chemical Science<\/a><\/i> 2018<\/strong>, 9, 6193-6198. (This article is part of the themed collection:\u00a02018 Chemical Science HOT Article Collection<\/a>)<\/p>\n

\u201cMapping structure-property relationships of organic color centers.\u201d Mijin Kim, Xiaojian Wu, Geyou Ao, Xiaowei He, Hyejin Kwon, Nicolai F. Hartmann, Ming Zheng, Stephen K. Doorn, YuHuang Wang. CHEM<\/i><\/a>\u00a0(Cell Press)\u00a02018<\/strong>, 4, 2180-2191. Download a free copy while available.<\/a><\/p>\n

\u201cUltrashort carbon nanotubes that fluoresce brightly in the near infrared.\u201d Dann\u00e9, N.; Kim, M.; Godin, A.G.; Kwon, H.; Gao, Z.H.; Wu, J.X.; Hartmann, N.; Doorn, S.K.; Lounis, B.; Wang, Y.H.; Cognet, L.*\u00a0ACS Nano<\/a><\/i> 2018<\/strong>, 12<\/i>\u00a0(6), 6059\u20136065<\/p>\n

\u201cChanneling Excitons to Emissive Sites in Carbon Nanotube Semiconductors beyond the Dilute Regime.\u201d Powell, L. R.; Kim, M.; Piao, Y.M.; Wang, Y. H.* J. Phys. Chem. Lett.<\/a><\/i> 2018<\/strong>, 9<\/i>, 2803-2807. Download a free copy while available<\/a>.<\/p>\n

\u201cLight\u2010Responsive Chemistry to Enable Tunable Interface\u2010Dependent Mechanical Properties in Composites.\u201d Frank Gardea*<\/sup>, Zhongjie Huang, Bryan Glaz, Shashi Karna, Xiyuan Cheng, Zhiwei Peng, YuHuang Wang. Advanced Materials Interfacies<\/a><\/i>\u00a02018<\/strong>, 5<\/em>, 1800038.<\/p>\n

\u201cPhosphine-Free Synthesis and Shape Evolution of MoSe2 Nanoflowers for Electrocatalytic Hydrogen Evolution Reactions.\u201d C. Zhang, X. Chen, Z. Peng, X. Fu, L. Lian, W. Luo, J. Zhang, H. Li, Y. Wang and D. Zhang*. CrystEngComm<\/a><\/i>, 2018<\/b>, 20, 2491 (featured on the Cover).<\/p>\n

\u201cPhosphine-Free Synthesis and Optical Stabilities of Composition-tuneable Monodisperse Ternary PbSe1-xSx Alloyed Nanocrystals via Cation Exchange.\u201d Zhang, Chi; Fu, Xiaoming; Peng, Zhiwei; Gao, JunHui; Xia, Yong; Zhang, Jianbing; Luo, Wei; Li, Honglang; Wang, YuHuang; Zhang, Daoli*. CrystEngComm<\/a><\/i> 2018<\/b>, 20, 2519.<\/p>\n

\u201cPhoto-actuated Pens for Molecular Printing.\u201d Huang, Z.J.; Li, L.; Zhang, X.A.; Alsharif, N.; Wu, X.J.; Peng, Z.W.; Cheng, X.Y.; Wang, P.; Brown, K.A.;* Wang, Y.H.*\u00a0Advanced Materials<\/a>\u00a0<\/i>2018<\/strong>,\u00a030<\/i>, 1705303.<\/p>\n

“Self-Assembly and Photoactivation of Blue Luminescent CsPbBr3 Mesocrystals Synthesized at Ambient Temperature.” Fu, X.; Zhang, C; Peng, Z.; Xia, Y.; Zhang, J.; Luo, W.; Lu, Z.; Guo, L. J.; Li, H.; Wang, Y.H.; Zhang, D.* Journal of Materials Chemistry C<\/i> 2018<\/strong>,\u00a06<\/i>, 1701 – 1708.<\/p>\n

\u201cControlled synthesis of brightly fluorescent CH3<\/sub>NH3<\/sub>PbBr3<\/sub> perovskite nanocrystals employing Pb(C17<\/sub>H33<\/sub>COO)2<\/sub> as sole lead source.\u201d Fu, X.; Peng, Z.; Zhang, C.; Xia, Y.; Zhang, J.; Luo, W.; Guo, L. J.; Li, H.*; Wang, Y. H.*, Zhang, D.* RSC Advances<\/a><\/i> 2018<\/strong>, 8, 1132-1139.<\/p>\n

\u201cPhotochemical Creation of Fluorescent Quantum Defects in Carbon Nanotube Hosts.\u201d Wu, X.; Kim, M.; Kwon, H.; Wang, Y. H.* Angew Chem. Int. Ed.<\/a><\/i> 2018<\/strong>, 57<\/em>, 648-653 (Frontispiece).<\/p>\n

\u201cGraphene as a functional layer for semiconducting carbon nanotube transistor sensors.\u201d Peng, Z.; Ng, L. A.; Kwon, H.; Chen, C. F.; C. S. Lee; Wang, Y. H.* Carbon<\/a><\/i> 2017<\/strong>, 125<\/i>, 49-55. (read for free until Dec 9<\/a>).<\/p>\n

\u201cChirality-Selective Functionalization of Semiconducting Carbon Nanotubes with a Reactivity-Switchable Molecule.\u201d Powell, L. R.; Kim, M.; Wang, Y. H.*\u00a0J. Am. Chem. Soc.<\/a><\/i>\u00a02017<\/strong>, 139 <\/i>(36), pp 12533\u201312540 (Journal Cover).<\/p>\n

Read the JACS Spotlight by Melissae Fellet. \u201cReaction Selectively Functionalizes Less Reactive Chiral Nanotube.\u201d JACS<\/a><\/i> (Spotlights), 2017, 139<\/i>, 13587..<\/p>\n

\u201cSuperacid-Surfactant Exchange: Enabling Non-destructive Dispersion of Full-length Carbon Nanotubes in Water.\u201d Wang, P.; Kim, M.; Peng, Z.; Sun, C.-F.; Lieberman, A.; Mok, J.; Wang, Y. H.* ACS Nano<\/a><\/i> 2017<\/strong>, 11 <\/i>(9), pp 9231\u20139238.<\/b>.<\/p>\n

\u201cOptically triggered melting of DNA on individual semiconducting carbon nanotubes.\u201d Wang, C.-Y.; Meany, B.; Wang, Y.H.* Angew. Chem. Int. Ed.<\/a><\/i>, 2017<\/strong>, 56<\/i>, 9326-9330.<\/p>\n

\u201cCapillary electrophoresis of covalently functionalized single-chirality carbon nanotubes.\u201d He, P.-L.*, Meany, B., Wang, C.-Y.; Piao, Y.; Kwon, H.; Deng, S.-L.; Wang, Y. H.* Electrophoresis<\/a><\/i> 2017<\/strong>, 38<\/i>, 1669-1677.<\/p>\n

\u201cLaser lithography of a tube-in-a-tube nanostructure.\u201d Ng, A.L.; Piao, Y.; Wang, Y.H.* ACS Nano<\/a><\/i> 2017<\/strong>,\u00a011<\/em>, 3320-3327. DOI: 10.1021\/acsnano.7b00624.<\/p>\n

\u201cChemical gating of a synthetic tube-in-a-tube semiconductor.\u201d Ng, A.L.; Chen, C.-F.; Kwon, H.; Peng, Z.; Lee, C.S.; Wang, Y.H.* J. Am. Chem. Soc.<\/a><\/i>, 2017<\/strong>, 139<\/i>, 3045\u20133051.<\/p>\n

\u201cChemical control and spectral fingerprints of electronic coupling in carbon nanostructures.\u201d Klos, J.; Kim, M.; Alexander, M. H.; Wang, Y.H.* Journal of Physical Chemistry C<\/a><\/i> 2016<\/strong>, 120 <\/i>(51), 29476\u201329483. DOI: 10.1021\/acs.jpcc.6b09612.<\/p>\n

\u201cOptical excitation of carbon nanotubes drives localized diazonium reactions.\u201d Powell, L.; Piao, Y.; Wang, Y.H.* Journal of Physical Chemistry Letters<\/a><\/i> 2016<\/strong>, 7<\/i>, 3690-3694.<\/p>\n

\u201cLi3<\/sub>PO4 matrix enables long cycle life and high energy efficiency bismuth-based battery.\u201d Sun, C.-F.; Hu, J.K.; Wang, P.; Cheng, X.-Y.; Lee, S. B.*; Wang, Y.H.* Nano Letters<\/a><\/i>, 2016<\/strong>, 16<\/i>, 5875-5882.<\/p>\n

\u201cPhotoluminescence dynamics of aryl sp3 defects in single-walled carbon nanotubes.\u201d Hartmann, N. F.; Velizhanin, K. A.; Haroz, E. H.; Kim, M.; Ma, X.; Wang, Y. H., Htoon, H.; Doorn, S. K.* ACS Nano<\/a><\/i> 2016<\/strong>, 10<\/i>, 8355-8365.<\/p>\n

\u201cFluorescent carbon nanotube defects manifest substantial vibrational reorganization.\u201d Kim, M.; Adamska, L.; Hartmann, N. F.; Kwon, H.; Liu, J.; Velizhanin, K. A.; Piao, Y.; Powell, L. R.; Meany, B.; Doorn, S. K.*; Tretiak, S.; Wang, Y.H.* J. Phys. Chem. C.<\/a><\/i> 2016<\/strong>, 120<\/i>, 11268\u201311276.<\/p>\n

\u201cBlocking oxidation failures of carbon nanotubes through selective protection of defects.\u201d Sun, C.F.; Glaz, B. J.*<\/sup>; Okada, M.; Baker, E. III; Cheng, X.-Y.; Karna, S.; Wang, Y.H.*, Advanced Materials<\/a><\/i> 2016<\/strong>, 28<\/i>, 6672\u20136679.<\/p>\n

\u201cMolecularly tunable fluorescent quantum defects.\u201d Kwon, H.; Furmanchuk, A.; Kim, M.; Meany, B.; Guo, Y.; Schatz, G. C.*; Wang, Y.H.* J. Am. Chem. Soc.<\/a><\/i>\u00a02016<\/strong>, 138<\/i>, 6878-6885.<\/p>\n

\u00a0(highlighted by JACS Spotlights. see: Fellet, M. \u201cNew fluorescent nanostructures through surface modification.\u201d JACS<\/a><\/i> 2016, 138<\/i>, 6689).<\/p>\n

\u201cDual-template ordered mesoporous carbon\/Fe2<\/sub>O3<\/sub> nanowires as lithium-ion battery anodes.\u201d Hu, J.; Sun, C.-F.; Gillette, E.; Gui, Z.; Wang, Y.H.*; Lee, S.B.* Nanoscale<\/a><\/i> 2016<\/strong>, 8<\/i>, 12958-12969.<\/p>\n

\u201cOptical Probing of Local pH and Temperature in Complex Fluids with Covalently Functionalized, Semiconducting Carbon Nanotubes.\u201d Kwon, H.\u2021<\/sup>, Kim, M.\u2021<\/sup>, Meany, B.; Piao, Y.; Powell, L. R.; Wang, Y.H.*. J. Phys. Chem. C<\/a><\/i> 2015<\/strong>, 119<\/i>, 3733\u20133739.<\/p>\n

\u201cInterfacial oxygen stabilizes silicon anodes.\u201d Sun, C.-F.; Zhu, H.-L.; Okada, M.; Gaskell, K.; Inoue, Y.; Hu, L.; Wang, Y. H.* Nano Letters<\/a><\/i> 2015<\/strong>, 15<\/i>, 703-708.<\/p>\n

\u201cSelective breakdown of metallic pathways in double-walled carbon nanotube networks.\u201d Ng, A. L.; Sun, Y.; Powell, L.; Sun, C.-F.; Chen, C.-F.*, Lee, C. S.; Wang, Y. H.* Small<\/a><\/i> 2015<\/strong>, 11<\/i>, 96-102 (Journal Cover).<\/p>\n

“Ammonium laurate surfactant for cleaner deposition of carbon nanotubes” Nilsson, H. M.; Meany, B.; Ticey, J.; Sun, C.-F., Wang, Y. H.; Cumings, J.* Langmuir<\/a>\u00a0<\/i>2015<\/strong>\u00a0, 31<\/em>, 6948-6955.<\/p>\n

\u201cControlled Defects in Semiconducting Carbon Nanotubes Promote Efficient Generation and Luminescence of Trions.\u201d Brozena, A.H.; Leeds, J. D.; Zhang, Y.; Fourkas, J. T.; Wang, Y.*\u00a0ACS Nano<\/em><\/a>\u00a02014<\/strong>, 8<\/i>, 4239\u20134247.<\/p>\n

\u201cPropagative Exfoliation of High Quality Graphene.\u201d Feng, L.; Liu, Y.-W.; Tang, X-Y.; Piao, Y. \u2013M.; Deng, S. L.*; Xie, S. Y.; Wang, Y.*; Zheng, L. S. Chem. Mater<\/a>.<\/i> 2013<\/strong>, 25<\/i>, 4487-4496.<\/p>\n

\u201cHoop-strong nanotubes for battery electrodes.\u201c Karki, K.; Zhu, Y.; Liu, Y.; Sun, C.-F.; Hu, L.; Wang, Y.; Wang, C. S.*; Cumings, J.* ACS Nano<\/i><\/a> 2013<\/strong>, 7<\/i>, 8295-8302.<\/p>\n

\u201cBrightening of carbon nanotube photoluminescence through the incorporation of sp3<\/sup> defects.\u201d Piao, Y. M.; Meany, B.; Powell, L. R.; Valley, N.; Kwon, H.; Schatz, G. C.; Wang, Y.* Nature Chemistry<\/a><\/i> 2013<\/strong>, 5<\/em>, 840-845.<\/p>\n

also, read\u00a0News & Views by
\nWang, Q.-H.; Strano, M. S. “Carbon nanotubes: A bright future for defects<\/a>.” Nature Chemistry<\/em> 2013<\/strong>, 5, 812-813.<\/p>\n

\u201cCuO necklaces: Controlled synthesis of oxide-carbon heterostructures for enhanced lithium storage performance.\u201d Zhang, Y.; Xu, M.*; Wang, F.; Song, X.; Wang, Y.; Yang, S. J. Phys. Chem. C.<\/a> <\/i>2013<\/strong>, 117<\/i>, 12346-12351.<\/p>\n

\u201cWeavable high-capacity electrodes.\u201d Sun, C.-F.; Zhu, H.-L.; Baker, E. B. III; Okada, M.; Wan, J.Y.; Ghemes, A.; Inoue, Y.; Hu, L.B.*; Wang, Y.* Nano Energy<\/a> <\/i>2013<\/strong>, 2<\/i>, 987-994.<\/p>\n

\u201cPropagative sidewall alkylcarboxylation induces red-shifted photoluminescence in single-walled carbon nanotubes.\u201d Zhang, Y.; Valley, N.; Brozena, A.; Piao, Y.M.; Song, X.; Schatz, G. C.*; Wang, Y.* J. Phys. Chem. Lett.<\/a><\/i> 2013<\/strong>, 4<\/i>, 826\u2212830.<\/p>\n

\u201cCovalently functionalized double-walled carbon nanotubes combine high sensitivity and selectivity in the electrical detection of small molecules.\u201d Huang, J.; Ng, A.; Piao, Y. M.; Chen, C. F.; Green, A.; Hersam, M. C.; Lee, C.; Wang, Y.* J. Am. Chem. Soc.<\/a><\/i> 2013<\/strong>, 135<\/i>, 2306-2312.<\/p>\n

\u201cA beaded-string Silicon Anode.\u201d Sun, C.F.; Karki, K.; Jia, Z.;Liao, H.; Zhang, Y.; Li, T.*; Qi, Y.*; Cumings, J.*; Rubloff, G. W.; Wang, Y.* ACS Nano<\/a> <\/i>2013<\/strong>, 7<\/i>, 2717\u20132724.<\/p>\n

\u201cAchieving ultrahigh concentrations of fluorescent single-walled carbon nanotubes using small-molecule viscosity modifiers.\u201d Leed, J. D.; Fourkas, J. T.*; Wang, Y.* Small<\/a><\/i> 2013<\/strong>, 9<\/i>, 241-247.<\/p>\n

\u201cAcyclic cucurbit[n]uril molecular clips selectively solubilize single-walled carbon nanotubes in water.\u201d Shen, C.; Da, M.; Meany, B.; Issacs, L.*; Wang, Y.* J. Am. Chem. Soc.<\/a><\/i> 2012<\/strong>, 134<\/i>, 7254\u22127257.<\/p>\n

\u201cInterfacial Mechanics of Carbon Nanotube@\u03b1-Silicon Co-axial Nanostructures.\u201d Liao, H. \u2013W.; Karki, K.; Zhang, Y.; Cumings, J.*; Wang, Y.* Adv. Mater.<\/a> <\/i>2011<\/strong>, 23<\/i>, 4318-4322.<\/p>\n

\u201cOptical and electrical properties of inner tubes in outer wall-selectively functionalized double-wall carbon nanotubes.\u201d Piao, Y. M.; Chen, C. F.; Green, A. A.; Kwon, H.; Hersam, M. C.; Lee, C. S.; Schatz, G. C.; Wang, Y.* J. Phys. Chem. Lett.<\/a><\/i> 2011<\/strong>, 2, 1577-1582.<\/p>\n

“Outerwall selective alkylcarboxylation and enrichment of double-walled carbon nanotubes.” Deng, S.; Piao, Y.-M.; Brozena, A. H.; Wang Y.* J. Mater. Chem.<\/i><\/a> <\/i>2011<\/strong>, 21, 18568-18574 <\/i>(Journal back cover).<\/p>\n

“Confined propagation of covalent chemical reactions on single-walled carbon nanotubes.” Deng, S.; Zhang, Y.; Brozena, A. H.; Mayes, M. L.; Banerjee, P.; Chiou, W. A.; Rubloff, G. W.; Schatz, G. C.; Wang Y.* Nature Communications<\/a><\/i> 2011<\/strong> 2:382 doi: 10.1038\/ncomms1384.<\/p>\n

“Gold-substrate enhanced scanning electron microscopy of functionalized single wall carbon nanotubes.” Zhang, Y.; Wang, Y.* J. Phys. Chem. Lett.<\/a><\/i> 2011<\/strong>, 2<\/i>, 885-888.<\/p>\n

\u201cDiameter-dependent, progressive alkylcarboxylation of single-walled carbon nanotubes.\u201d Deng, S.; Brozena, A. H.; Zhang, Y.; Piao, Y.-M.; Wang, Y.* Chem. Comm.<\/a><\/i> 2011<\/b>, 47, 758-760 (invited research article for web themed issue: Carbon Nanostructure. Edited by Nazario Mart\u00edn, Dirk M. Guldi, Luis Echegoyen)<\/p>\n

\u201cDouble-walled carbon nanotubes: challenges and opportunities.\u201d Shen, C.; Brozena, A. H.; Wang Y.* Nanoscale<\/a> <\/i>2011<\/strong>, 3, 503 \u2013 518. (invited review article).<\/p>\n

\u201cOuter wall selectively oxidized, water-soluble double-walled carbon nanotubes.\u201d Brozena, A.H.; Moskowitz, J.; Shao, B.; Deng, S. L.; Liao, H. W.; Gaskell K. J.; Wang, Y.* J. Am. Chem. Soc.<\/a><\/i> 2010<\/strong>, 132<\/i>, 3932-3938.<\/p>\n

\u201cNanofabrication beyond electronics.\u201d Wang, Y.*; Mirkin, C. A.; Park, S.-J. ACS Nano<\/a><\/i> 2009<\/b>, 3<\/i>, 1049-1056 (invited perspective).<\/p>\n

Publications Prior to Maryland<\/strong>
\n\u201cAssembly of nanorods into designer superstructures: The role of templating, capillary forces, adhesion, and polymer hydration.\u201d Ciszek, J. W.; Huang, L.; Tsonchev, S.; Wang, Y.; Shull, K. R.; Ratner, M. A.; Schatz, G. C.; Mirkin, C. A. ACS Nano<\/em><\/a> 2010<\/strong>, 4, 259-266 (Journal Cover)<\/p>\n

\u201cNanoscale molecular transport: the case of Dip-Pen Nanolithography.\u201d Giam, L. R.\u2020; Wang, Y.\u2020; Mirkin, C. A. J. Phys. Chem. A.<\/em><\/a> 2009<\/strong>, 113, 3779-3782 (Special issue \u201cGeorge C. Schatz Festschrift\u201d) (\u2020 equal contribution).<\/p>\n

\u201cA self-correcting inking strategy for cantilever arrays addressed by an inkjet printer and used for Dip-Pen Nanolithography.\u201d Wang, Y.\u2020; Giam, L. R.\u2020; Park, M.; Lenhert, S.; Fuchs, H.; Mirkin, C. A. Small<\/em><\/a> 2008<\/strong>, 4, 1666-1670 (Journal Cover). (\u2020 equal contribution)<\/p>\n

\u201cSuperparamagnetic sub-5 nm Fe@C nanoparticles: isolation, structure, magnetic properties, and directed assembly.\u201d Wang, Y.\u2020; Wei W.\u2020; Maspoch, D.; Wu, J.-S.; Dravid, V.; Mirkin, C. A. Nano Lett.<\/em><\/a> 2008<\/strong>, 8, 3761-3765 (\u2020 equal contribution).<\/p>\n

\u201cKinetically-controlled, shape-directed assembly of nanorods.\u201d Ciszek, J. W.; Huang, L.; Wang, Y.; Mirkin, C. A. Small<\/a> 2008<\/strong>, 4(2), 206\u2013210 (Journal Cover).<\/p>\n

\u201cApplications of Dip-Pen Nanolithography.\u201d Salaita, K.; Wang, Y.; Mirkin, C. A. Nature Nanotech.<\/em><\/a> 2007<\/strong>, 2, 145-155.<\/p>\n

\u201cMassively Parallel Dip-Pen Nanolithography of heterogeneous supported phospholipid multilayer patterns.\u201d Lenhert, S.; Sun, P.; Wang, Y.; Mirkin, C. A.; Fuchs, H. Small<\/em><\/a> 2007<\/strong>, 3, 71-75 (Journal Cover).<\/p>\n

\u201cA highly selective, one-pot purification method for single-walled carbon nanotubes.\u201d Wang, Y.*; Shan, H.; Hauge, R. H.; Pasquali, M.*; Smalley, R. E. J. Phys. Chem. B<\/em><\/a> 2007<\/strong>, 111, 1249-1252. #4 \u201cMost-Accessed Articles\u201d within the journal: January\u2013March, 2007<\/p>\n

\u201cNanoscopically flat, open-ended, single-walled carbon substrates for continued growth.\u201d Kim, M.-J.; Haroz, E.; Wang, Y.; Shan, H.; Da, S.; Nicholas, N.; Kittrell, C.; C. Moore, V. C.; Jung, Y.; Luzzi, D.; Wheeler, R.; BensonTolle, T.; Fan, H.; Hwang, W.-F.; Wainerdi, T. J.; Schmidt, H.; Hauge, R. H.; Smalley, R. E. Nano Lett.<\/em><\/a> 2007<\/strong>, 7, 15-21.<\/p>\n

\u201cRings of single-walled carbon nanotubes: molecular-template directed assembly and Monte Carlo simulations.\u201d Zou, S.; Maspoch, D.; Wang, Y.; Mirkin, C. A.; Schatz, G. C. Nano Lett.<\/em><\/a> 2007<\/strong>, 7, 276-280.<\/p>\n

\u201cControlling the shape, orientation and linkage of carbon nanotube features with nano affinity templates.\u201d Wang, Y.; Maspoch, D.; Zou, S.; Schatz, G. C.; Smalley, R. E.; Mirkin, C. A. Proc. Nat. Acad. Sci. U.S.A.<\/em><\/a> 2006<\/strong>, 103, 2026-2031.<\/p>\n

\u201cMassively Parallel Dip-Pen Nanolithography with 55,000-Pen Two-Dimensional Arrays.\u201d Salaita, K.\u2020; Wang, Y.\u2020; Fragala, J.; Liu, C.; Mirkin, C. A. Angew. Chem. Int. Ed.<\/em><\/a> 2006<\/strong>, 45, 7220-7223 (Journal Cover, \u2020 equal contribution).<\/p>\n

\u201cAsymmetric functionalization of gold nanoparticles with oligonucleotides.\u201d Xu, X.; Rosi, N.; Wang, Y.; Hou, F. W.; Mirkin, C. A. J. Am. Chem. Soc.<\/em><\/a> 2006<\/strong>, 128, 9286 -9287.<\/p>\n

\u201cRevealing the substructure of single-walled carbon nanotube fibers.\u201d Wang, Y.; Ericson, L. M.; Kittrell, C.; Kim, M. J.; Shan, H.; Fan, H.; Ripley, S.; Ramesh, S.; Hauge, R. H.; Adams, W. W.; Pasquali, M.; Smalley, R. E. Chem. Mater.<\/em><\/a> 2005<\/strong>, 17, 6361-6368.<\/p>\n

\u201cContinued growth of single-walled carbon nanotubes.\u201d Wang, Y.; Kim, M. J.; Shan, H. W.; Kittrell, C.; Fan, H.; Ericson, L.; Aprepalli, S.; Hauge, R.; Smalley, R. E. Nano Lett.<\/em><\/a> 2005<\/strong>, 5(6), 997-1002 (Journal Cover).<\/p>\n

\u201c\u2018Bed-of-nails\u2019 ultrathin membranes of single wall carbon nanotubes.\u201d Wang, Y.; Da, S.; Kim, M. J.; Kelley K. F.; Kittrell, C.; Hauge, R. H.; Smalley, R. E. J. Am. Chem. Soc.<\/em><\/a> 2004<\/strong>, 126, 9502-9503.<\/p>\n

\u201cPhase behavior and rheology of SWNTs in superacids.\u201d Davis, V.; Ericson, L. M.; Parra-Vasquez, N.; Fan, H.; Wang, Y.; Prieto, V.; Longoria, J. A.; Ramesh, S.; Saini, R. K; Kittrell, C.; Billups, W. E.; Adams, W. W.; Hauge, R. H.; Smalley, R.; Pasquali, M. Macromolecules<\/em><\/a> 2004<\/strong>, 37, 154-160 (Journal Cover).<\/p>\n

\u201cMacroscopic, neat, single-walled carbon nanotube fibers.\u201d Ericson, L. M; Fan, H.; Peng, H.; Davis, V. A.; Zhou, W.; Sulpizio, J.; Wang, Y.; Booker, R.; Vavro, J.; Guthy, C.; Parra-Vasquez, A.; Kim, M.; Ramesh, S.; Saini, R. K.; Kittrell, C.; Lavin, G.; Schmidt, H.; Adams, W.; Billups, W.; Pasquali, M.; Hwang, W.; Hauge, R.; Fischer, J. E.; Smalley, R. E. Science<\/em><\/a> 2004<\/strong>, 305, 1447-1450.<\/p>\n

Comment on “Single crystals of single-walled carbon nanotubes formed by self-assembly.” Matthew, F. C.; Wang, Y.; Lupini, A. R.; Eres, G.; Puretzky, A. A.; Brinson, B.; Melechko, A. V.; Geohegan, D. B.; Cui, H.; Johnson, M.; Pennycook, S. J.; Lowndes, D. H.; Arepalli, S.; Kittrell, C.; Sivaram, S.; Kim, M.; Lavin, G.; Kono, J.; Hauge, H.; Smalley, R. E. Science<\/em><\/a> 2003<\/strong>, 300, 1236.<\/p>\n","protected":false},"excerpt":{"rendered":"

To request reprints not available on web, please contact YuHuang Wang\u00a0\u00a0You may access publications through\u00a0Google Scholar and check out cover arts and press reports that feature our research work. \u201cCapturing Exciton-Proton Collisions in Confined Water,\u201d Ziyi Wang, Jacek Klos, Jacob … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"onecolumn-page.php","meta":[],"yoast_head":"\n\n\n\n\n\n\n\n\t\n