公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2016 | Scalable production of graphene with tunable and stable doping by electrochemical intercalation and exfoliation | Hsieh, Y.-P.; Chiang, W.-Y.; Tsai, S.-L.; Hofmann, M.; Mario Hofmann | Physical Chemistry Chemical Physics | 14 | 14 | |
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 | |
2019 | Solid-diffusion-facilitated cleaning of copper foil improves the quality of CVD graphene | Nguyen, D.-T.; Chiang, W.-Y.; Su, Y.-H.; Hofmann, M.; Mario Hofmann | Scientific Reports | 5 | 4 | |
2010 | Surface plasmon enhanced energy transfer between type I CdSe/ZnS and type II CdSe/ZnTe quantum dots | Wang, C.H.; Chen, C.W.; Chen, Y.T.; Wei, C.M.; Chen, Y.F.; Lai, C.W.; Ho, M.L.; Chou, P.T.; YANG-FANG CHEN ; PI-TAI CHOU ; Mario Hofmann | Applied Physics Letters | 36 | 31 | |
2014 | Surface-induced hybridization between graphene and titanium | Mario Hofmann ; Hsu, A.L. et al. | ACS Nano | 35 | 33 | |
2010 | Synthesis of few-layer hexagonal boron nitride thin film by chemical vapor deposition | Shi, Y.; Mario Hofmann et al. | Nano Letters | 1025 | 987 | |
2012 | Synthesis of monolayer hexagonal boron nitride on Cu foil using chemical vapor deposition | Kim, K.K.; Mario Hofmann et al. | Nano Letters | 1025 | 984 | |
2007 | The big picture of Raman scattering in carbon nanotubes | Dresselhaus, M.S.; Dresselhaus, G.; Mario Hofmann | Vibrational Spectroscopy | 99 | 96 | |
2009 | Thermal stability studies of CVD-grown graphene nanoribbons: Defect annealing and loop formation | Campos-Delgado, J. et al.; Mario Hofmann | Chemical Physics Letters | | | |
2014 | Tunneling-injection in vertical quasi-2D heterojunctions enabled efficient and adjustable optoelectronic conversion | Tan, W.-C.; Chiang, C.-W.; Hofmann, M.; Mario Hofmann ; YANG-FANG CHEN | Scientific Reports | 3 | 3 | |
2021 | Two-Dimensional Mechano-thermoelectric Heterojunctions for Self-Powered Strain Sensors | Wang, Ying-Yu; Chen, Ding-Rui; Wu, Jen-Kai; Wang, Tian-Hsin; Chuang, Chiashain; SSU-YEN HUANG ; Hsieh, Wen-Pin; Mario Hofmann ; YUAN-HUEI CHANG ; Hsieh, Ya-Ping | Nano letters | 11 | 6 | |
1960 | Uber Die Anwendung Der Gas-Chromatographie in Verbindung Mit Der Ir-Spektroskopie Und Der Massenspektrometrie Zur Bestimmung Von Verunreinigungen in Technischen, Polymerisierbaren Verbindungen Am Beispiel Des Methacrylsaure-Methylesters | Hofmann, M.; Kaiser, R.; Mario Hofmann | Angewandte Chemie-International Edition | | 0 | |
2014 | Ultra-high sensitivity graphene photosensors | CHIH-I WU ; Mario Hofmann ; Hsieh, Y.-P.; Yen, C.-H.; Lin, P.-S.; Ma, S.-W.; Ting, C.-C.; Wu, C.-I.; Hofmann, M.; CHIH-I WU ; Mario Hofmann | Applied Physics Letters | | 16 | |
2021 | Ultra-thin 2D transition metal monochalcogenide crystals by planarized reactions | Chin H.-T., Hofmann M., Huang S.-Y., Yao S.-F., Lee J.-J., Chen C.-C., Ting C.-C., Hsieh Y.-P.; Mario Hofmann | npj 2D Materials and Applications | 4 | 5 | |
2016 | Ultrahigh mobility in polyolefin-supported graphene | Hsieh, Y.-P.; Kuo, C.-L.; Hofmann, M.; Mario Hofmann | Nanoscale | 7 | 6 | |
2015 | Ultrathin graphene-based solar cells | Hsieh, Y.-P.; Hong, B.-J.; Ting, C.-C.; Hofmann, M.; Mario Hofmann | RSC Advances | 5 | 4 | |
2023 | Vacancy-plane-mediated exfoliation of sub-monolayer 2D pyrrhotite | Lee, Jian Jhang; Chu, Yi Hung; Yen, Zhi Long; Muthu, Jeyavelan; Ting, Chu Chi; SSU-YEN HUANG ; Mario Hofmann ; Hsieh, Ya Ping | Nanoscale Advances | 0 | 0 | |
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 | |