公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2012 | A facile tool for the characterization of two-dimensional materials grown by chemical vapor deposition | Hofmann, M.; Shin, Y.C.; Hsieh, Y.-P.; Dresselhaus, M.S.; Kong, J.; Mario Hofmann | Nano Research | 28 | 25 | |
2012 | A novel class of strain gauges based on layered percolative films of 2D materials | Hempel, M.; Nezich, D.; Kong, J.; Hofmann, M.; Mario Hofmann | Nano Letters | 380 | 353 | |
2011 | Antibacterial activity of graphite, graphite oxide, graphene oxide, and reduced graphene oxide: Membrane and oxidative stress | Liu, S.; Zeng, T.H.; Hofmann, M.; Burcombe, E.; Wei, J.; Jiang, R.; Kong, J.; Chen, Y.; Mario Hofmann | ACS Nano | 2300 | 2152 | |
2015 | Assessment of exhaust emissions from carbon nanotube production and particle collection by sampling filters | Tsai, C.S.-J.; Hofmann, M.; Hallock, M.; Ellenbecker, M.; Kong, J.; Mario Hofmann | Journal of the Air and Waste Management Association | 4 | 2 | |
2009 | Characterization and evaluation of nanoparticle release during the synthesis of single-walled and multiwalled carbon nanotubes by chemical vapor deposition | Tsai, S.-J.; Hofmann, M.; Hallock, M.; Ada, E.; Kong, J.; Ellenbecker, M.; Mario Hofmann | Environmental Science and Technology | 94 | 72 | |
2019 | Characterizing percolative materials by straining | Yao, H.; Hempel, M.; Hsieh, Y.-P.; Kong, J.; Mario Hofmann | Nanoscale | 10 | 8 | |
2010 | Chiral angle dependence of resonance window widths in (2n+m) families of single-walled carbon nanotubes | Hsieh, Y.-P.; Mario Hofmann ; Farhat, H.; Barros, E.B.; Kalbac, M.; Kong, J.; CHI-TE LIANG ; Chen, Y.-F.; Dresselhaus, M.S.; YANG-FANG CHEN | Applied Physics Letters | 8 | 8 | |
2010 | Defects in individual semiconducting single wall carbon nanotubes: Raman spectroscopic and in situ Raman spectroelectrochemical study | Kalbac, M.; Hsieh, Y.-P.; Farhat, H.; Kavan, L.; Hofmann, M.; Kong, J.; Dresselhaus, M.S.; Mario Hofmann | Nano Letters | 81 | 80 | |
2009 | Direct deposition of single-walled carbon nanotube thin films via electrostatic spray assisted chemical vapor deposition | Hsieh, Y.-P.; Hofmann, M.; Son, H.; Jia, X.; YANG-FANG CHEN ; CHI-TE LIANG ; Dresselhaus, M.S.; Kong, J. | Nanotechnology | 12 | 10 | |
2016 | Enhancing the Sensitivity of Percolative Graphene Films for Flexible and Transparent Pressure Sensor Arrays | Chen, Z.; Ming, T.; Goulamaly, M.M.; Yao, H.; Nezich, D.; Hempel, M.; Hofmann, M.; Kong, J.; Mario Hofmann | Advanced Functional Materials | 91 | 89 | |
2007 | Growth mechanism of long and horizontally aligned carbon nanotubes by chemical vapor deposition | Reina, A.; Hofmann, M.; Zhu, D.; Kong, J.; Mario Hofmann | Journal of Physical Chemistry C | 68 | 66 | |
2008 | In-situ sample rotation as a tool to understand chemical vapor deposition growth of long aligned carbon nanotubes | Hofmann, M.; Nezich, D.; Reina, A.; Kong, J.; Mario Hofmann | Nano Letters | 51 | 53 | |
2009 | Loop formation in graphitic nanoribbon edges using furnace heating or Joule heating | Jia, X.; Campos-Delgado, J.; Gracia-Espino, E.E.; Hofmann, M.; Muramatsu, H.; Kim, Y.A.; Hayashi, T.; Endo, M.; Kong, J.; Terrones, M.; Dresselhaus, M.S.; Mario Hofmann | Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures | 26 | 24 | |
2014 | Promoter-assisted chemical vapor deposition of grapheme | Hsieh, Y.-P.; Hofmann, M.; Kong, J.; Mario Hofmann | Carbon | 35 | 31 | |
2014 | Scalable, flexible and high resolution patterning of CVD graphene | Hofmann, M.; Hsieh, Y.-P.; Hsu, A.L.; Kong, J.; Mario Hofmann | Nanoscale | 32 | 31 | |
2010 | Scanning electrochemical microscopy of individual single-walled carbon nanotubes | Kim, J.; Xiong, H.; Hofmann, M.; Kong, J.; Amemiya, S.; Mario Hofmann | Analytical Chemistry | 54 | 47 | |
2009 | Softening of the radial breathing mode in metallic carbon nanotubes | Farhat, H.; Sasaki, K.; Kalbac, M.; Hofmann, M.; Saito, R.; Dresselhaus, M.S.; Kong, J.; Mario Hofmann | Physical Review Letters | 49 | 45 | |
2010 | Work function engineering of graphene electrode via chemical doping | Shi, Y.; Kim, K.K.; Reina, A.; Hofmann, M.; Li, L.-J.; Kong, J.; Mario Hofmann | ACS Nano | 500 | 472 | |