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James Tour (Portuguese Wikipedia)

Analysis of information sources in references of the Wikipedia article "James Tour" in Portuguese language version.

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38doi.org
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14nih.gov
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5jmtour.com
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2discovery.org
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2worldcat.org
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1handle.net
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1justia.com
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1scholar.google.com
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1nytimes.com
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1academyofinventors.org
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1rgdoi.net
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dx.doi.org

  • Zhu, Y.; James, D. K.; Tour, J. M. (2012). «New Routes to Graphene, Graphene Oxide and Their Related Applications». Adv. Mater. 24 (36): 4924–4955. PMID 22903803. doi:10.1002/adma.201202321 
  • Sun, Z.; Yan, Z.; Yao, J.; Beitler, E.; Zhu, Y.; Tour, J. M. (2010). «Growth of Graphene from Solid Carbon Sources». Nature. 2010 (468): 549–552. PMID 21068724. doi:10.1038/nature09579 
  • Kosynkin, D. V.; Higginbotham, A. L.; Sinitskii, A.; Lomeda, J. R.; Dimiev, A.; Price, B. K.; Tour, J. M. (Abril de 2009). «Longitudinal Unzipping of Carbon Nanotubes to Form Graphene Nanoribbons». Nature. 458 (7240): 872–6. PMID 19370030. doi:10.1038/nature07872. hdl:10044/1/4321 
  • Dimiev, A.; Kosynkin, D. V.; Sinitskii, A.; Slesarev, A.; Sun, Z.; Tour, J. M. (2011). «Layer-by-Layer Removal of Graphene for Device Patterning». Science. 331 (6021): 1168–1172. PMID 21385709. doi:10.1126/science.1199183 
  • Scrivens, W. A.; Tour, J. M. (1992). «Synthesis of Gram Quantities of C60 by Plasma Discharge in a Modified Round-Bottomed Flask. Key Parameters for Yield Optimization and Purification». J. Org. Chem. 1992 (57): 6932–6936. doi:10.1021/jo00051a047 
  • Scrivens, W. A.; Bedworth, P. V.; Tour, J. M. (1992). «Purification of Gram Quantities of C60. A New Inexpensive and Facile Method». J. Am. Chem. Soc. 1992 (114): 7917–7919. doi:10.1021/ja00046a051 
  • Higginbotham, A. L.; Moloney, P. G.; Waid, M. C.; Duque, J. G.; Kittrell, C.; Schmidt, H. K.; Stephenson, J. J.; Arepalli, S.; Yowell, L. L.; Tour, J. M. (2008). «Carbon Nanotube Composite Curing Through Absorption of Microwave Radiation». Composites Sci. Tech. 68 (15–16): 3087–3092. doi:10.1016/j.compscitech.2008.07.004 
  • Mitchell, C. A.; Bahr, J. L.; Arepalli, S.; Tour, J. M.; Krishnamoorti, R. (2002). «Dispersion of Functionalized Carbon Nanotubes in Polystyrene». Macromolecules. 35 (23): 8825–8830. doi:10.1021/ma020890y 
  • Noh, J.; Jung, M.; Jung, K.; Lee, G.; Lim, S.; Kim, D.; Kim, S.; Tour, J. M.; Cho, G. (2011). «Integrable single walled carbon nanotube (SWNT) network based thin film transistors using roll-to-roll gravure and inkjet». Org. Electronics. 12 (12): 2185–2191. doi:10.1016/j.orgel.2011.09.006 
  • Berlin, J. M.; Yu, J.; Lu, W.; Walsh, E. E.; Zhang, L.; Zhang, P.; Chen, W.; Kan, A. T.; Wong, M. S.; Tomson, M. B.; Tour, J. M. (2011). «Engineered Nanoparticles for Hydrocarbon Detection in Oil-field Rocks». Energy Environ Sci. 2011 (4): 505–509. doi:10.1039/c0ee00237b 
  • Hwang, C.-C.; Wang, L.; Lu, W.; Ruan, G.; Kini, G. C.; Xiang, C.; Samuel, E. L. G.; Shi, W.; Kan, A. T.; Wong, M. S.; Tomson, M. B.; Tour, J. M. (2012). «Highly Stable Carbon Nanoparticles Designed for Downhole Hydrocarbon Detection». Energy Environ Sci. 2012 (5): 8304–8309. doi:10.1039/c2ee21574h 
  • Ruan, G.; Sun, Z.; Peng, Z.; Tour, J. M. (2011). «Growth of Graphene from Food, Insects, and Waste». ACS Nano. 5 (9): 7601–7607. doi:10.1021/nn202625c 
  • Sinitskii, A.; Tour, J. M. (2009). «Lithographic Graphitic Memories». ACS Nano. 3 (9): 2760–2766. doi:10.1021/nn9006225 
  • Li, Y.; Sinitskii, A.; Tour, J. M. (2008). «Electronic Two-Terminal Bistable Graphitic Memories». Nature Materials. 7 (12): 966–971. doi:10.1038/nmat2331 
  • Sano, D.; Berlin, J. M.; Pham, T. T.; Marcano, D. C.; Valdecanas, D. R.; Zhou, G.; Milas, L.; Myers, J. N.; Tour, J. M. (2012). «Noncovalent Assembly of Targeted Carbon Nanovectors Enables Synergistic Drug and Radiation Cancer Therapy in Vivo». ACS Nano. 6 (3): 2497–2505. PMC 3314092Acessível livremente. PMID 22316245. doi:10.1021/nn204885f 
  • Sharpe, M. A.; Marcano, D. C.; Berlin, J. M.; Widmayer, M. A.; Baskin, D. S.; Tour, J. M. (2012). «Antibody-Targeted Nanovectors for the Treatment of Brain Cancers». ACS Nano. 6 (4): 3114–3120. PMID 22390360. doi:10.1021/nn2048679 
  • Zhu, Y.; Li, L.; Zhang, C.; Casillas, G.; Sun, Z.; Yan, Z.; Ruan, G.; Peng, Z.; Raji1, A.-R. O.; Kittrell, C.; Hauge, R. H.; Tour, J. M. "A Seamless Three-Dimensional Carbon Nanotube Graphene Hybrid Material," Nature Communications 2012; 3, 1225. doi:10.1038/ncomms2234
  • Yan, Z.; Peng, Z.; Casillas, G.; Lin, J.; Xiang, C.; Zhou, H.; Yang, Y.; Ruan, G.; Raji, A.-R. O.; Samuel, E. L. G.; Hauge, R. H.; Yacaman, M. J.; Tour, J. M. "Rebar Graphene," ACS Nano 2014; 8, XXXX. doi:10.1021/nn501132n
  • Ye, R.; Xiang, C.; Lin, J.; Peng, Z.; Huang, K.; Yan, Z.; Cook, N. P.; Samuel, E. L. G.; Hwang, C.-C.; Ruan, G.; Ceriotti, G.; Raji, A.-R. O.; Martí, A. A.; Tour, J. M. (2013). «Coal as an Abundant Source of Graphene Quantum Dots». Nature Communications. 4 (2943): 1–6. PMID 24309588. doi:10.1038/ncomms3943 
  • Xiang, C.; Cox, P. J.; Kukovecz, A.; Genorio, B.; Hashim, D. P.; Yan, Z.; Peng, Z.; Hwang, C.-C.; Ruan, G.; Samuel, E. L. G.; Sudeep, P. M.; Konya, Z.; Vajtai, R.; Ajayan, P. M.; Tour, J. M. (2013). «Functionalized Low Defect Graphene Nanoribbons and Polyurethane Composite Film for Improved Gas Barrier and Mechanical Performances». ACS Nano. 7 (11): 10380–10386. PMID 24102568. doi:10.1021/nn404843n 
  • Volman, V.; Zhu, Y.; Raji, A.-R.; Genorio, B.; Lu, W.; Xiang, C.; Kittrell, C.; Tour, J. M. (2014). «Radio-Frequency-Transparent, Electrically Conductive Graphene Nanoribbon Thin Films as Deicing Heating Layers». ACS Appl. Mater. Interfaces. 6 (1): 298–304. PMID 24328320. doi:10.1021/am404203y 
  • Yang, Y.; Fan, X.; Casillas, G.; Peng, Z.; Ruan, G.; Wang, G.; Yacaman, M. J.; Tour, J. M. (2014). «Three-Dimensional Nanoporous Fe2O3/Fe3C Graphene Heterogeneous Thin Films for Lithium-Ion Batteries». ACS Nano. 8 (4): 3939–3946. PMC 4004288Acessível livremente. PMID 24669862. doi:10.1021/nn500865d 
  • Zhang, C.; Peng, Z.; Lin, J.; Zhu, Y. Ruan; Hwang, C.-C.; Lu, W.; Hauge, R. H.; Tour, J. M. (2013). «Splitting of a Vertical Multiwalled Carbon Nanotube Carpet to a Graphene Nanoribbon Carpet and Its Use in Supercapacitors». ACS Nano. 7 (6): 5151–5159. doi:10.1021/nn400750n 
  • Lin, J., Peng, Z., Wang, G., Zakhidov, D., Larios, E., Yacaman, M. J.; Tour, J. M. "Enhanced Electrocatalysis for Hydrogen Evolution Reactions from WS2 Nanoribbons," Adv. Energy Mater. 2014; 1301875. doi:10.1002/aenm.201301875
  • Dimiev, A. M.; Alemany, L. B.; Tour, J. M. (2013). «Graphene Oxide. Origin of Acidity, Its Instability in Water, and a New Dynamic Structural Model». ACS Nano. 7: 576–588. doi:10.1021/nn3047378 
  • Dimiev, A. M.; Tour, J. M. (2014). «Mechanism of Graphene Oxide Formation». ACS Nano. 8 (3): 3060–3068. doi:10.1021/nn500606a 
  • Romanchuk, A. Yu.; Slesarev, A. S.; Kalmykov, S. N.; Kosynkin, D. V.; Tour, J. M. (2013). «Graphene Oxide for Effective Radionuclide Removal». Phys. Chem. Chem. Phys. 15 (7): 2321–2327. doi:10.1039/c2cp44593j 
  • Yao, J.; Lin, J.; Dai, Y.; Ruan, G.; Yan, Z.; Li, L.; Zhong, L.; Natelson, D.; Tour, J. M. (2012). «Highly Transparent Nonvolatile Resistive Memory Devices from Silicon Oxide and Graphene». Nature Communications. 3: 1–8. PMID 23033077. doi:10.1038/ncomms2110 
  • Yang, Y.; Ruan, G.; Xiang, C.; Wang, G.; Tour, J. M. (2014). «Flexible Three-Dimensional Nanoporous Metal-Based Energy Devices». J. Am. Chem. Soc. 2014 (136): 6187–6190. doi:10.1021/ja501247f 
  • Chu, P.-L.; Wang, L.-Y.; Khatua, S.; Kolomeisky, A.; Link, S.; Tour, J. M. (2013). «Synthesis and Single-Molecule Imaging of Highly Mobile Adamantane-Wheeled Nanocars». ACS Nano. 7: 35–41. doi:10.1021/nn304584a 
  • Carroll, GT; Pollard, MM; van Delden, RA; Feringa, BL (2010). «Controlled rotary motion of light-driven molecular motors assembled on a gold surface». Chemical Science. 1 (1): 97–101. doi:10.1039/C0SC00162G 
  • Saywell, Alex; Bakker, Anne; Mielke, Johannes; Kumagai, Takashi; Wolf, Martin; García-López, Víctor; Chiang, Pinn-Tsong; Tour, James M.; Grill, Leonhard (2016). «Light-induced Translation of Motorized Molecules on a Surface». ACS Nano. 10 (12): 10945–10952. PMID 27783488. doi:10.1021/acsnano.6b05650 
  • Tour, J. M. (1996). «Conjugated Macromolecules of Precise Length and Constitution. Organic Synthesis for the Construction of Nanoarchitectures». Chem. Rev. 1996 (96): 537–553. doi:10.1021/cr9500287 
  • Basener, William F.; Sanford, John C. (junho de 2018). «The fundamental theorem of natural selection with mutations». Journal of Mathematical Biology (7): 1589–1622. ISSN 1432-1416. PMC 5906570Acessível livremente. PMID 29116373. doi:10.1007/s00285-017-1190-x. Consultado em 5 de abril de 2021 
  • Brewer, Wesley H.; Baumgardner, John R.; Sanford, John C. (10 de abril de 2013). «Using Numerical Simulation to Test the ?Mutation-Count? Hypothesis». WORLD SCIENTIFIC: 298–311. ISBN 978-981-4508-71-1. doi:10.1142/9789814508728_0012. Consultado em 5 de abril de 2021 
  • Crevecoeur, Guibert U. (1 de dezembro de 2019). «Entropy growth and information gain in operating organized systems». AIP Advances (12). 125041 páginas. doi:10.1063/1.5128315. Consultado em 5 de abril de 2021 
  • Sodre Neto SG Neto (2021). «A TEORIA DA SOBREVIVÊNCIA DAS ESPÉCIES SOB EMPOBRECIMENTO GENÉTICO (ENTROPIA GENÉTICA) ATUANDO PELOS MOTORES EVOLUTIVOS». doi:10.13140/RG.2.2.14369.43367. Consultado em 5 de abril de 2021 
  • Thorvaldsen, Steinar; Hössjer, Ola (4 de junho de 2020). «Using statistical methods to model the fine-tuning of molecular machines and systems». ISSN 0022-5193. doi:10.1016/j.jtbi.2020.110352. Consultado em 2 de junho de 2021 

handle.net

hdl.handle.net

  • Kosynkin, D. V.; Higginbotham, A. L.; Sinitskii, A.; Lomeda, J. R.; Dimiev, A.; Price, B. K.; Tour, J. M. (Abril de 2009). «Longitudinal Unzipping of Carbon Nanotubes to Form Graphene Nanoribbons». Nature. 458 (7240): 872–6. PMID 19370030. doi:10.1038/nature07872. hdl:10044/1/4321 

jmtour.com

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patents.justia.com

nih.gov

ncbi.nlm.nih.gov

pubmed.ncbi.nlm.nih.gov

nytimes.com

rdmag.com

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scholar.google.com

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scitation.org

aip.scitation.org

thebestschools.org

uit.no

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wordpress.com

worldcat.org

worldscientific.com