Journals
[48] L. An, Z. Guo, Z. Li, Y. Fu, Y. Hu, Y. Huang, F. Yao*, C. Zhou*, S. Q. Ren*, "Tailoring thermal insulation architectures from additive manufacturing", just accepted in Nature Communication.
[47] S. C. Wei, Y. Fu, P. Roy, T. Xiao, H. Yan, M. Liu, H. Jaiswal, S. Shahi, Y. Gata, T. Butler, H. M. Li*, Q. X. Jia, and F. Yao*, "Two Birds with One Stone: Prelithiated Two-dimensional Nanohybrids as High-Performance Anode Materials for Lithium-Ion Batteries", just accepted ACS Applied Materials & Interfaces.
[46] Y. Hu, W.Gong, S. Wei, S. Khuje, Y. Li*, F. Yao*, Q. Yan* and S. Q. Ren*, "Lithiating Magneto-Ionics in Rechargeable Battery", just accepted in PNAS.
[45] W. M. Jiao, S. C. Wei, C. R. Chang, H. M. Li* and F. Yao*, “Ultra-fast switching speed electrochromic supercapacitor” to be submitted.
[44] Z. Li, F. Yao, H. Y. Sun, "Reinforced Active Learning for CVD-Grown Two-Dimensional Materials Characterization", under review.
[43] S. Shahi, M. Liu, H. N. Jaiswal, A. Chakravarty, S. Wei, Y. Fu, A. Ahmed, A. Cabanillas, Y. Guo, F. Yao*, and H. Li*, "Metal-semiconductor Schottky diodes with record-high rectification and conductance using two-dimensional monolayer decoration," under review.
[42] M. Liu, H. N. Jaiswal, S. Shahi, A. Chakravarty, S. Wei, Y. Fu, A. Ahmed, A. Cabanillas, F. Yao*, and H. Li*, "Cold-source transistors: An emerging steep-slope transistor for beyond CMOS logic," under review.
[41] M. Bian, L. Zhu, X. Wang, J. Choi, S. Wei, L. Wu, C. Huai, A. Marga, Q. Yang, F. Yao, T. Yu, S. Crooke, X. Cheng, R.Sabirianov, J. Lin, Y. Hou, S. Zhang, and H. Zen*, "Dative epitaxy of commensurate monocrystalline covalent-van der Waals moiré supercrystal", just accepted in Adv. Mater.
[40] S. C. Wei, Y. Fu, M. Liu, H. Yue, S. Park, Y. H. Lee, H. M. Li*, and F. Yao*, "Dual-phase MoS2/MXene/CNT ternary nanohybrids for efficient electrocatalytic," just accepted in npj 2D Materials and Applications.
[39] S. C. Wei, S. J. Baek, H. Yue, M. Liu, S. J. Yun, S. Park, Y. H. Lee, J. Zhao, H. M. Li*, K. Reyes*, and F. Yao*, “Machine-Learning Assisted Exploration: Toward the Next-Generation Catalyst for Hydrogen Evolution Reaction,” Journal of The Electrochemical Society, Vol. 168, No. 12, 2021.
[38] C. Yang, G. Wang, M. Liu, F. Yao, and H. Li, "Mechanism, material, design, and implementation principle of two-dimensional material photodetectors," Nanomaterials, vol. 11, no. 2688, October 2021. (DOI: 10.3390/nano11102688)
[37] Z. Li, J. Lee, F. Yao* and H. Y. Sun*, “Quantifying the CVD-Grown Two-Dimensional Materials via Image Clustering”, Nanoscale, vol. 13, pp. 15324-15333, 2021.
[36] M. Liu, H. Jaiswal, S. Shahi, S. Wei, Y. Fu, C. Chang, A. Chakravarty, X. Liu, C. Yang, Y. Liu, Y. H. Lee, F. Yao* and H. Li*, “Two-dimensional Cold Electron Transport for Steep-slope Transistors”, ACS Nano, vol. 15, pp. 5762-5772, 2021.
[35] X. Gao, H. Zhang, E. Guo, F. Yao, Z. Wang, and H. Y. Yue*, “Hybrid two-dimensional nickel oxide-reduced graphene oxide nanosheets for supercapacitor electrodes,” Microchemical Journal 164, 05979, 2021.
[34] M. Bian, A. N. Kamenskii, M. Han, W. Li, S. C. Wei, X. Tian, D. B. Eason, F. Sun, K. He, H. Hui, F. Yao, R. Sabirianov, J. P. Bird, C. Yang, J. Miao, J. Lin, S. A. Crooker, Y. Hou and H. Zeng, "Covalent 2D Cr 2 Te 3 ferromagnet", Materials Research Letters 9 (5), 205, 2021.
[33] H. N. Jaiswal, M. Liu, S. Shahi, S. Wei, J. Lee, A. Ch akravarty, Y. Guo, R. Wang, J. M. Lee, C. Chang, F. Yu, R. Dixit, F. Yao*, and H. Li*, “Diode-like selective enhancement of carrier transport through metal-semiconductor interface decorated by monolayer boron nitride,” Adv. Mater., vol. 32, no. 2002716, 2020.
[32] M. Liu, S. Wei, S. Shahi, H. N. Jaiswal, P. Paletti, S. Fathipour, M. Remskar, J. Jiao, W. Hwang, F. Yao*, and H. Li*, “Enhanced carrier transport by transition metal doping in WS2 field-effect transistors,” Nanoscale, vol. 12, pp. 17253, 2020.
[31] M. Chen, Boutchich, J. Alvarez, J. Kleider, F. Yao, V. L. Nguyen, Y. H. Lee et. al. “Giant lattice expansion in the commensurate phases of monolayer graphene on copper”, Nat. mater. under revision.
[30] X. Gao, H. Zhang, H.Yue, F. Yao, X. Zhang, E. Guo, Y. Ma, Z. Wang, and Y. Wang, “A Novel Polyaniline Nanowire Arrays/Three‐Dimensional Graphene Composite for Supercapacitor”, Chemistry Select 5 (35), 11004-11009, 2020.
[29] H. Y. Yue, T. Zhang, X. R. Guo, X. Gao, F. Yao, H. T. Chen, X. X. Lu, Y. B. Wang, “Synthesis of Ni NW-assisted graphene/indium sulfide nanosheet arrays as electrode material for supercapacitor”, Ionics, vol. 25, pp. 2043, 2020.
[28] T. Zhang, H. Y. Yue, X. Gao, F. Yao, H. T. Chen, X. X. Lu, Y. B. Wang, and X. R. Guo, “High-performance supercapacitors based on polyaniline nanowire arrays grown on three-dimensional graphene with small pore sizes”, Dalton Transactions, vol. 49, pp. 3304, 2020.
[27] T. Zhang, H. Y. Yue, X. Gao, F. Yao, H. Chen, X. Lu, Y. Wang, and X. Guo, “A novel electrode material of polyaniline nanowire array/three-dimensional hollow graphene balls-graphene oxide for symmetric supercapacitor”, Ionics, vol. 26, pp. 2063, 2020.
[26] T. Zhang, H. Y. Yue, X. Gao, F. Yao, and X. Guo, “Polyaniline nanowire arrays on three-dimensional hollow graphene balls for high-performance symmetric supercapacitor”, Journal of Electroanalytical Chemistry, vol. 855, pp. 113574, 2019.
[25] Y. Zheng, C. Yuan, S. Wei, H. Kim, F. Yao* and J.-H. Seo*, "Direct Growth of Two Dimensional Molybdenum Disulfide on Flexible Ceramic Substrate", Nanomaterials, vol.9, pp.1456, 2019.
[24] Z. Wang, H. Y. Yue, Z. M. Yu, F. Yao, X. Gao, E. H. Guan, H. J. Zhang, Q. Wang and S. S. Song, “One-pot hydrothermal synthesis of MoSe2 nanosheets spheres-reduced graphene oxide composites and application for high-performance supercapacitor”, Journal of Materials Science: Materials in Electronics, vol. 30, pp. 8537, 2019.
[23] H. Jaiswal, M. Liu, F. Yao, H. Li, “Localized Surface Plasmon Resonance on Two-Dimensional Monolayer and Multilayer HfSe2”, Semiconductor Science and Technology, Vol. 33, no. 124014, Nov. 2018.
[22] E. Guan, X. Gao, F. Yao, W. Wang, T. Zhang, Z. Wang, S. Song, H. Zhang, H.Y. Yue, "Hydrothermal Synthesis of TiO2 Nanowires‐Reduced Graphene Oxide Nanocomposite to Enhance Electrochemical Performance in Supercapacitor”, Chemistry Select, Nov. 2018.
[21] H. Y. Yan, E. H. Guan, X. Gao, F. Yao, W. Q. Wang, T. Zhang, Z. Wang, S. S. Song, and H. J. Zhang, "One-step hydrothermal synthesis of TiO2 nanowires-reduced graphene oxide nanocomposite for supercapacitor", Ionics, DOI: 10.1007/s11581-018-2678-0, August 2018.
[20] K. P. So, D. H. Keum, H. Y. Jeong, F. Yao, C. Heo, S. C. Lim, J. C. Jeong, J. G. Park, H. K. Park, Y. H. Choi, C. H. Hong, S. H. Joo, H. S. Kim, H. Kim, J. Won, and Y. H. Lee, “Intragranular Dispersion of Carbon Nanotubes Comprehensively Improves Aluminum Alloys”, Advanced Science, vol. 5, pp. 1800115, April 2018.
[19] B. Li, H. Nam, J. Zhao, J. Chang, N. Lingappan, F. Yao, and Y. H. Lee, “Nickle containing carbon nanocapsules for oxygen reduction reaction: Nano-reactor effect and ultra-high stability”, Adv. Mater., 2017, vol. 29, no. 7, pp. 1605083, Dec. 2016.
[18] S. Adhikari, D. Perello, C. Biswas, A. Ghosh, N. Luan, J. Park, F. Yao, S. Rotkin, and Y. H. Lee, "Determining Fermi level by absorption quenching of monolayer graphene by charge transfer doping", Nanoscale, vol. 44, no. 8, pp. 8710-18717, Nov. 2016.
[17] H. Arezki, M. Boutchich, D. Alamarguy, A. Madouri, J. Alvarez, P. Cabarricas, J. Kleider, F. Yao, and Y. H. Lee, "Electronic properties of embedded graphene: doped amorphous silicon/CVD graphene heterostructures", Journal of Physics-Condensed Mater, vol. 28, no. 40, pp. 404001, Oct. 2016.
[16] F. Yao, D. T. Pham and Y. H. Lee, “Carbon-based materials for lithium ion batteries, electrochemical capacitors and their hybrid devices”, ChemSusChem, vol. 8, no. 14, pp. 2284 - 2311, Jul. 2015.
[15] D. T. Pham, T. H. Lee, D. Luong, F. Yao, A. Ghosh, V. T. Le, T. H. Kim, B. Li, J. Chang, and Y. H. Lee, “Carbon nanotube-bridged graphene 3D building blocks for ultrafast compact supercapacitors”, ACS Nano, vol. 9, no. 2, pp. 2018-2027, Feb. 2015.
[14] J. Chang, S. Adhikari, T. H. Lee, B. Li, F. Yao, D. T. Pham, V. T. Le, and Y. H. Lee, “Leaf vein-inspired nanochannelled graphene film for highly efficient micro-supercapacitors”, Adv. Energy Mater., vol. 5, no. 9, pp. 1500003-1-1500003-8, Feb. 2015.
[13] B. Li, F. Yao, J. J. Bae, J. Chang, M. R. Zamfir, D. T. Le, D. T. Pham, H. Yue, and Y. H. Lee, “Hollow carbon nanospheres/silicon/alumina core-shell film as an anode for lithium-ion batteries”, Sci. Rep., vol. 5, no. 7659, pp. 01-07, Jan. 2015.
[12] F. Yao, B. Li, K. P. So, J. Chang, T. H. Ly, A. Q. Vu, H. N. Mun, C. S. Cojocaru, H. Y. Yue, S. S. Xie and Y. H. Lee, “A strategy to overcome the limits of carbon-based materials as lithium-ion battery anodes”, Carbon, vol. 79, pp. 563-571, Nov. 2014.
[11] T. H. Ly, M.-H. Chiu, M.-Y. Li, J. Zhao, M. O. Cichocka, H. M. Oh, S. H. Chae, H. Y. Jeong, F. Yao, L.-J. Li, and Y. H. Lee, “Observing grain boundaries in CVD-grown monolayer transition metal dichalcogenides”, ACS Nano, vol. 8, no. 11, pp. 11401-11408, Nov. 2014.
[10] B. Rogez, H. Yang, E. L. Moal, S. Lévêque-Fort, E. Boer-Duchemin, F. Yao, Y. H. Lee, Y. Zhang, D. Wegner, N. Hildebrandt, M. Kociak, A. Mayne, and G. Dujardin, “Fluorescence lifetime and blinking of individual semiconductor nanocrystals on graphene”, J. Phys. Chem. Lett., vol. 118, vol. 32, pp. 18445-18452, Aug. 2014.
[9] H. Yue, S. Huang, J. Chang, C. Heo, F. Yao, S. Adhikari, F. Gunes, L. C. Liu, T. H. Lee, E. S. Oh, B. Li, J. Zhang, Q. H. Ta, L. Van Nguyen, and Y. H. Lee, “ZnO nanowire arrays on 3D hierarchical graphene foam: biomarker detection of Parkinson's disease”, ACS Nano, vol. 8 no. 2, pp. 1639-1646, Feb. 2014.
[8] T. H. Ly, D. L. Duong, Q. H. Ta, F. Yao, Q. A. Vu, H. Y. Jeong, S. H. Chae, and Y. H. Lee, “Nondestructive characterization of graphene defects”, Adv. Func. Mater., vol. 23, no. 41, pp. 5183-5189, Nov. 2013
[7] J. Chang, M. Jin, F. Yao, T. H. Kim, V. T. Le, H. Yue, F. Gunes, B. Li, A. Ghosh, S. Xie, and Y. H. Lee, “Asymmetric supercapacitors based on graphene/MnO2 nanospheres and graphene/MoO3 nanosheets with high energy density”, Adv. Func. Mater. vol. 23, no. 40, pp. 5074-5083, Oct. 2013.
[6] F. Yao, F. Gunes, H. Q. Ta, S. M. Lee, S. J. Chae, K. Y. Sheem, C. S. Cojocaru, S. Xie, and Y. H. Lee, “Diffusion mechanism of lithium ion through basal plane of layered graphene”, J. Am. Chem. Soc., vol. 134, no. 20, pp. 8646-8654, Apr. 2012.
[5] H. T. Nguyen*, F. Yao, M. R. Zamfir, C. Biswas, K. P. So, Y. H. Lee, S. M. Kim, S. N. Cha, J. M. Kim, and D. Pribat, “Highly interconnected Si nanowires for improved stability Li-ion battery anodes”, Adv. Energy Mater., vol. 1, no. 6, pp. 1154-1161, Nov. 2011.
[4] F. Güneş, G. H. Han, H.-J. Shin, S. Y. Lee, M. Jin, D. L. Duong, S. J. Chae, E. S. Kim, F. Yao, A. Benayad, J.-Y. Choi, and Y. H. Lee, “UV light-assisted oxidative sp3-hybridization of graphene”, Nano, vol. 6, no. 05, pp. 409-418, Oct. 2011.
[3] I. H. Lee, U. J. Kim, H. B. Son, S. M. Yoon, F. Yao, W. J. Yu, D. L. Duong, J. Y. Choi, J. M. Kim, E. H. Lee, and Y. H. Lee, “Hygroscopic effects on AuCl3-doped carbon nanotubes”, J. Phys. Chem. C, vol. 114, no. 26, pp. 11618-11622, Jun. 2010.
[2] F. Yao, D. L. Duong, S. C. Lim, S. B. Yang, H. R. Hwang, W. J. Yu, I. H. Lee, F. Gunes, and Y. H. Lee, “Humidity-assisted selective reactivity between NO2 and SO2 gas on carbon nanotubes”, J. Mat. Chem., vol. 21, no. 12, pp. 4502-4508, Feb. 2011.
[1] F. Yao, S. C. Lim, W. J. Yu, I. H. Lee, F. Gunes, H. R. Hwang, S. B. Yang, K. P. So, G. H. Han, and Y. H. Lee, “AC response to gas exposure in vertically aligned multiwalled carbon nanotube electrode”, J. Phys. Chem. C, vol. 114, no. 8, pp. 3659-3663, Feb. 2010.
Conferences (selected)
F. Yao, B. Li, K. P. So, J. Chang, T. H. Ly, A. Q. Vu, H. N. Mun, C. S. Cojocaru, H. Y. Yue, S. S. Xie and Y. H. Lee, “Silicon-coated carbon nanofiber mat for anode of lithium ion battery”, in Imaginenano Graphene Conference, Spain, Apr. 2013 (oral presentation).
F. Yao, F. Gunes, H. Q. Ta, S. M. Lee, S. J. Chae, K. Y. Sheem, C. S. Cojocaru, S. S. Xie, and Y. H. Lee, “Diffusion Mechanism of Lithium Ion through Basal Plane of Layered Graphene”, in MRS Fall Meeting, Boston, USA, Nov. 2012.
F. Yao and Y. H. Lee, “Carbon nanofiber/Si nanowire as an anode material for Li-ion battery”, in A3 Symposium on Emerging Materials: Nanocarbons and Nanowires for Energy, Korea, Nov. 2010.
F. Yao, D. D. Loc, S. C. Lim, S. B. Yang, H. R. Hwang, W. J. Yu, F. Gunes, and Y. H. Lee, “Humidity-assisted selective reactivity between NO2 and SO2 gas on carbon nanotubes”, in 11th International Conference on the Science and Application of Nanotubes, Canada, Jun. 2010.
F. Yao, S. C. Lim, W. J. Yu, F. Gunes, and Y. H. Lee, “Capacitive gas sensor of vertically aligned carbon nanotubes”, in International Green Energy Nanocarbon Conference, Korea, Nov. 2009.
Patents
Large area graphene as a protecting layer for metal corrosion, KR (Republic of Korea) patent, in process.
F. Yao and H. Li, "A facile metal-assisted denitrification (MAD) process for hollow Zn cocoon encapsulated CxNy microsphere synthesis," under review process.
H. Li and F. Yao, "Field effect transistors including quantum layers," under review process.