{"id":924,"date":"2019-11-14T11:58:45","date_gmt":"2019-11-14T03:58:45","guid":{"rendered":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/?page_id=924"},"modified":"2025-10-20T13:49:22","modified_gmt":"2025-10-20T05:49:22","slug":"by-impact-if10","status":"publish","type":"page","link":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/publications\/by-impact-if10\/","title":{"rendered":"Impact Factor>10"},"content":{"rendered":"

[vc_row][vc_column][vc_column_text]\u25c6<\/span>C. Y. Lin*, B. C. Chen, Y. C. Liu, S. F. Kuo, H. C. Tsai, Y. M. Chang*, C. Y. Kuo, C. F. Chang, J. H. Chen, Y. H. Chu, M. Yamamoto, C. H. Shen, Y. L. Chueh, P. W. Chiu, Y. C. Chen, J. C. Yang* & Y. F. Lin*
\n\u201cIntegration offreestanding hafnium zirconium oxide membranes into two-dimensional transistors as a high-\u03ba ferroelectric dielectric\u201d
\nNature Electronics<\/strong>, 2025, 8, 7, 7, 560-570,June(IF=40.9)<\/p>\n

\u25c6<\/span>Y. J. Wang, J. W. Zhang, J. Chen, H. Wang, S. Wu, C. Y. Lo, J. T. Hong, C. Y. Syu, L. S. Hao, I S. Chen, Y. C. Chang, Z. Yang, R. Huang*, C. L. Lin, P. W. Chiu, Y. L. Chueh, Y. C. Chen, C. H. Yeh* & Y. H. Chu*
\n\u201cPolarity modulation in compositionally tunable Bi2O2Se thin films\u201d
\nNature Communications<\/strong>, 2025, 16:2873, March(IF=14.7)<\/p>\n

\u25c6<\/span>Q. Liu, H. Sun, Y. C. Lin*, <\/b>M. Ghorbani-Asl, S. Kretschmer, C. C. Cheng, P. W. Chiu, H. Ago, A. V. Krasheninnikov*, <\/b>K. Suenaga*
\n<\/b>\u201cDefect Migration and Phase Transformations in Two-Dimensional Iron Chloride inside Bilayer Graphene\u201d
\nACS Nano<\/strong>,2025, 19, 4, 4845\u20134854, January(IF=15.88)<\/p>\n

\u25c6<\/span>M. J. Liu, W. J. Lan, C. S. Huang, C. Z. Chen, R. H. Cyu, P. A. L. Sino, Y. L. Yang, P. W. Chiu, F. C. Chuang, C. H. Shen,* J. H. Chen,* and Y. L. Chueh* 
\n<\/span>\u201cHigh-Performance Monolithic 3D Integrated Complementary Inverters Based on Monolayer n-MoS2 and p-WSe2\u201d
\nSmall<\/strong>, 2024, 20, 2307728, January (IF=13)<\/p>\n

\u25c6<\/span>S. S. Wani, C. C. Hsu, Y. Z. Kuo, K. M. M. D. K. Kimbulapitiya, C. C. Chung, R. H. Cyu, C. T. Chen, M. J. Liu, M. Chaudhary, P. W. Chiu, Y. L. Zhong*, and Y. L. Chueh*
\n“Enhanced Electrical Transport Properties of Molybdenum Disulfide Field-Effect Transistors by Using Alkali Metal Fluorides as Dielectric Capping Layers”
\nACS Nano<\/strong>,2024, 18, 16, 10776-10787, April (IF=17.1)<\/p>\n

\u25c6<\/span>M. P. Lee, C. Gao, M. Y. Tsai, C. Y. Lin, F. S. Yang, H. Y. Sung, C. Zhang, W. Li*, J. Li, J. Zhang, K. Watanabe, T. Taniguchi, K. Ueno, K. Tsukagoshi , C. H. Ho , J. Chu , P. W. Chiu , M. Li*, W. W. Wu*, Y. F. Lin* 
\n<\/span>\u201cSilicon\u2013van der Waals heterointegration for CMOS-compatible logic-in-memory design\u201d
\nScience Advances<\/strong>, 2023, 9(49):eadk1597, December (IF=13.6)<\/p>\n

\u25c6<\/span>Y. C. Shen, B. K. Wu, T. S. Tsai, M. Liu, J. H. Chen, T. Y. Yang, R. H. Cyu, C. T. Chen, Y. C. Hsu, C. H. Luo, Y. Q. Huang, Y. R. Peng, C. H. Shen, Y. F. Lin, P. W. Chiu, Y. C. King,* and Y. L. Chueh* 
\n<\/span>\u201cDesign of Versatile Top-Down Transfer by Thermal Release Tape\/Poly(methyl methacrylate) (TRT\/PMMA) Bi-Supporting Layers Toward All-Transfer Transition Metal Dichalcogenide Material Based Transistor Arrays\u201d
\nsmall science<\/strong>, 2023, 4, 2300144, December (IF=12.7)<\/p>\n

\u25c6<\/span>Y. C. Lin, R. Matsumoto, Q. Liu, P. Sol\u00eds-Fern\u00e1ndez, M. D. Siao, P. W. Chiu, H. Ago, K. Suenaga
\n\u201cAlkali metal bilayer intercalation in graphene\u201d
\nNature Communications<\/strong>, 2024, 15, 425, January (IF=14.919)<\/p>\n

\u25c6<\/span>M. Y. Tsai, T. H. Tsai, A. C. Gandhi, H. L. Lu, J. X. Li, P. L. Chen, K. W. Chen, S. Z. Chen, C. H. Chen, C. H. Liu, Y. F. Lin, and P. W. Chiu*
\n\u201cUltrafast and Broad-Band Graphene Heterojunction Photodetectors with High Gain\u201d
\nACS Nano<\/strong>, 2023, 17, 24, 25037\u201325044,December (IF=18.027)<\/span><\/p>\n

\u25c6<\/span>Q. Liu, Y. C. Lin*, S. Kretschmer, M. Ghorbani-Asl, P. Sol\u00eds-Fern\u00e1ndez, M. D. Siao, P. W. Chiu, H. Ago, A. V. Krasheninnikov* and K. Suenaga*
\n\u201cMolybdenum Chloride Nanostructures with Giant Lattice Distortions Intercalated into Bilayer Graphene\u201d
\nACS Nano<\/strong>, 2023, 17, 23, 23659\u201323670,November (IF=18.027)<\/span><\/p>\n

\u25c6<\/span>M. Y. Tsai, C. T. Huang, C. Y. Lin, M. P. Lee, F. S. Yang, M. Li, Y. M. Chang, K. Watanabe, T. Taniguchi, C. H. Ho, W. W. Wu, M. Yamamoto, J. L. Wu*, P. W. Chiu* & Y. F. Lin* 
\n<\/span>\u201cA reconfigurable transistor and memory based on a two-dimensional heterostructure and photoinduced trapping\u201d
\nNature Electronics<\/b>, 2023, doi.org\/10.1038\/s41928-023-01034-7, September(IF=34.3)<\/span><\/p>\n

\u25c6C. H. Chiang, Y. C. Yang, J. W. Lin, Y. C. Lin, P. T. Chen, C. L. Dong, H. M. Lin, K. M. Chan, Y. T. Kao, K. Suenaga, P. W. Chiu,* and C. W. Chen* 
\n“<\/span>Bifunctional Monolayer WSe2\/Graphene Self- Stitching Heterojunction Microreactors for Efficient Overall Water Splitting in Neutral Medium
\n<\/span>ACS Nano<\/strong>, 2022,16, 18274\u221218283, October(IF=18.027)<\/span><\/p>\n

\u25cfM. D. Siao, A. C. Gandhi, A. K. Sahoo, Y. C. Wu, H. K. Syu, M. Y. Tsai, T. H. Tsai, Y. C. Yang, Y. F. Lin, R. S. Liu, and P. W. Chiu* 
\n<\/span>\u201cWSe2\/WS2 Heterobilayer Nonvolatile Memory Device with Boosted <\/span>Charge Retention\u201d
\nACS Appl. Mater. Interfaces<\/b>, 2022, 14, 3467\u22123475, January(IF=10.383)<\/span><\/p>\n

\u25cfC. F. Chen, S. H. Yang, C. Y. Lin, M. P . Lee, M. Y. Tsai, F. S. Yang, Y. M. Chang, M. Li, K. C. Lee, K. Ueno, Y. Shi, C. H. Lien, W. W. Wu, P. W. Chiu, W. Li, S. T. Lo, Y. F. Lin*
\n\u201cReversible Charge-polarity Control for Multioperation-mode Transistors Based on van der Waals Heterostructures\u201d
\nAdvanced Science<\/b>, 2022,  2106016,  July(IF=17.521)<\/span><\/p>\n

\u25cf<\/span>J. X. Li, W. Q. Li, S. H. Hung, P. L. Chen, Y. C. Yang, T. Y. Chang, P. W. Chiu , H. T. Jeng and C. H. Liu
\n\u201cElectric control of valley polarization in monolayer WSe2 using a van der Waals magnet\u201d
\n<\/b>Nature Nanotechnology<\/b>,2022, doi.org\/10.1038\/s41565-022-01115-2,May(IF=40.523)<\/span><\/p>\n

\u25cf<\/span>M. Y. Tsai, K. C. Lee,* C. Y. Lin, Y. M. Chang, K. Watanabe, T. Taniguchi, C. H. Ho, C. H. Lien, P. W. Chiu,* and Y. F. Lin*
\n\u201cPhotoactive Electro-Controlled Visual Perception Memory for Emulating Synaptic Metaplasticity and Hebbian Learning\u201d
\nAdv. Funct. Mater. <\/b>, 2021, 31, 2105345, July(IF=19.924)<\/span><\/p>\n

\u25cf<\/span>Y. C. Shen, Y. T. Wu, L. Lee, J. H. Chen, S. S. Wani, T. Y. Yang, C. W. Luo, M. D. Siao, Y. J. Yu, P. W. Chiu* and Y. L. Chueh*
\n\u201cRational Design on Wrinkle-Less Transfer of Transition Metal Dichalcogenide Monolayer by Adjustable Wettability-Assisted Transfer Method \u201d
\nAdvanced functional materials<\/b>,2021,Volume31, Issue45 ,2104978, August(IF=19.924)<\/span><\/p>\n

\u25cf<\/span>K. C. Lee, S. Y. Huang, S. H. Yang, M. Y. Tsai, C. Y. Lin, M. Li, Y. M. Chang, K. Watanabe, T. Taniguchi, Y. C. Lai, S. P. Lin*, P. W. Chiu*, Y. F. Lin*
\n“Artificial mechanoreceptor based on van der Waals stacking structure”
\nMatter<\/strong>,2021,4,1598-1610(IF=19.967)<\/span><\/p>\n

\u25cf<\/span>Y. C. Lin,* J. Karthikeyan, Y. P. Chang, S. Li, S. Kretschmer, H. P. Komsa, P. W. Chiu, A. V. Krasheninnikov,* and K. Suenaga*
\n“Formation of Highly Doped Nanostripes in 2D Transition Metal Dichalcogenides via a Dislocation Climb Mechanism”
\nAdvanced Materials<\/strong>,<\/span><\/strong> 2021,33(IF=32.086)<\/span><\/p>\n

\u25cf<\/span>M. D. Siao, Y. C. Lin, T. He, M.vY. Tsai,1, K. Y. Lee, S. Y. Chang, K. I. Lin, Y. F. Lin, M. Y. Chou, K. Suenaga, and P. W. Chiu*
\n“Embedment of Multiple Transition Metal Impurities into WS2 Monolayer for Bandstructure Modulation”
\nSmall .,<\/span><\/strong> 2021,:e2007171(IF=15.153)<\/span><\/p>\n

\u25cfY. C. Lin*, S. Lee, Y. P. Chang, P. W. Chiu*, G. D. Lee*, K. Suenaga
\n“Two-Dimensional Iodine-Monofluoride Epitaxy on WSe2”
\nNPJ 2D Mater. Appl., <\/strong>2021, 5:18(IF=10.516)<\/span><\/p>\n

\u25cf<\/span>C. Gao, M. P. Lee, M. Li, K. C. Lee, F. S. Yang, C. Y. Lin, K. Watanabe, T. Taniguchi, P. W. Chiu, C. H. Lien, W. W. Wu, S. P. Lin*, W. Li*, Y. F. Lin* and J. Chu
\n“Mimic Drug Dosage Modulation for Neuroplasticity based on Charge-trap Layered Electronics”
\nAdvanced functional materials,<\/span><\/strong>2020,<\/span>31(5):2005182 (IF=19.924)<\/span><\/p>\n

\u25cf<\/span>K. C. Lee, M. Li*, Y. H. Chang, S. H. Yang, C. Y. Lin, Y. M. Chang, F. S. Yang, K. Watanabe, T. Taniguchi, C. H. Ho, C. H. Lien, S. P. Lin, P. W. Chiu*, and Y. F. Lin*
\n\u201cInverse paired-pulse facilitation in neuroplasticity based on interface-boosted charge trapping layered electronics\u201d
\nNano Energy, <\/span><\/strong>2020,<\/span> 77, 105258(IF=19.069)<\/span><\/p>\n

\u25cfM. C. Chang, P. H. Ho, M. F. Tseng, F. Y. Lin, C. H. Hou, I K. Lin, C. Y. Wen, J. J.  Shyue, C. W. Chen, L. C. Chen, K. H. Chen, P. W. Chiu
\n“Fast Growth of Millimeter-Size Two-Dimensional Materials through a Self-Capping Vapor-Liquid-Solid Method”
\nNature Comm.<\/strong>, 2020, 11, 3682 (IF=17.694)<\/span><\/p>\n

\u25cfS. Y. Tang, C. C. Yang, T. Y. Su, T. Y. Yang, S. C. Wu, Y. C. Hsu, Y. Z. Chen, T. N. Lin, J. L. Shen, H. N. Lin, P. W. Chiu, H. C. Kuo, Y. L. Chueh*
\n“Design of Core-Shell Quantum Dots-3D WS2<\/sub> Nanowalls Hybrid Nanostructure with High-Performance Bifunctional Sensing Properties”
\nACS Nano,<\/strong>2020,14,12668-12678(IF=18.027<\/span>)<\/p>\n

\u25cfY. C. Lin, H. G. Ji, L. J. Chang, Y. P. Chang, Z. Liu, G. D. Lee, P. W. Chiu, H. Ago, and K. Suenaga
\n\u201cScanning Moir\u00e9 Fringe Method: A Superior Approach to Perceive Defects, Interfaces, and Distortion in 2D Materials\u201d
\nACS Nano,<\/strong> 2020, 14, 6034\u2013604 (IF=18.027<\/span>)<\/p>\n

\u25cfT. H. Tsai, Z. Y. Liang, Y. C. Lin<\/span>, C. C. Wang<\/span>, K. I. Lin, K. Suenaga, and <\/span>P. W. Chiu* <\/span>
\n<\/span>“Photogating WS2 Photodetectors Using Embedded WSe2 Charge Puddles”
\nACS Nano, <\/strong>2020, 14, 4559-4566 (IF=18.027)<\/span><\/p>\n

\u25cfC. H. Yeh, Z. Y. Liang, Y. C. Lin<\/span>, H. C. Chen<\/span>, T. Fan, C. H. Ma, Y. H. Chu, K. Suenaga, and <\/span>P. W. Chiu* <\/span>
\n<\/span>“Graphene-Transition Metal Dichalcongenide Heterjunctions for Scalable and Low-Power Complementary Integrated Circuits”
\nACS Nano, <\/strong>2020, 14, 985-992 (IF=18.027)<\/span><\/p>\n

\u25cfC. H. Chu, H. C. Lin, C. H. Yeh, Z. Y. Liang, M. Y. Chou and P. W. Chiu*
\n\u201cEnd-Bonded Metal Contacts on WSe2 Field-Effect Transistors \u201c
\nACS Nano<\/strong>, 2019, 13(7), 8146-8154 (IF=18.027)<\/span><\/p>\n

\u25cfH. Yeh, H. C. Chen, H. C. Lin, Y. C. Lin, Z. Y. Liang, M. Y. Chou, K. Suenaga, and P. W. Chiu*
\n\u201cUltrafast Monolayer In\/Gr-WS2\u2010Gr Hybrid Photodetectors with High Gain\u201d
\nACS Nano<\/strong>, 2019, 13, 3269-3279 (IF=18.027)<\/span><\/span><\/p>\n

\u25cfC. Lin, C. H. Yeh, H. C. Lin, M. D. Siao, Z. Liu, H. Nakajima, T. Okazaki, M. Y. Chou, K. Suenaga, and P. W. Chiu*
\n\u201cStable 1T Tungsten Disulfide Monolayer and its Junctions: Growth and Atomic Structures\u201d
\n<\/span>ACS Nano<\/strong>, 2018, 12, 12080-12088. (IF=18.027)<\/span><\/span><\/p>\n

\u25cfEliel, M. Moutinhho, A. Gadelha, A. Righi, L. Campos, H. Ribeiro, P. W. Chiu, L. C Campos, T. Taniguchi, P. Puech, M. Paillet, T. Michel, P. Venezuela, and M. Pimenta
\n\u201cIntralayer and interlayer electron-phonon interactions in twisted graphene heterostructures\u201d
\nNature Comm.<\/strong>, 2018, 9:1221. (IF=17.694)<\/p>\n

\u25cfH. Ho, Y. R. Chang, Y. C. Chu, M. K. Li, C. A. Tsai, W. H. Wang, C. H. Ho, C. W. Chen, P. W. Chiu*
\n\u201cHigh-Mobility InSe Transistors: the Role of Surface Oxides\u201d
\nACS Nano<\/strong>, 2017, 11 (7), 7362\u20137370. (IF=18.027)<\/span><\/p>\n

\u25cfC. Lin, S. Morishita, M. Koshino, C. H. Yeh, P. Y. Teng, P. W. Chiu, H. Sawada, and K. Suenaga
\n\u201cUnexpected Huge Dimerization Ratio in One-Dimensional Carbon Atomic Chains\u201d,
\nNano Lett.<\/strong>, 2017, 17(1), 494-500. (IF=12.262)<\/p>\n

\u25cfLiu, L. H. G. Tizei , Y. Sato , Y. C. Lin , C. H. Yeh , P. W. Chiu , M. Terauchi , S. Iijima , and K. Suenaga
\n\u201cPostsynthesis of h-BN\/Graphene Heterostructures Inside a STEM\u201d,
\nSmall<\/strong>, 2016, 12(2), 252-259 . (IF=15.153<\/span>)<\/span><\/p>\n

\u25cfI Li, J. C. Lin, H. J. Liu, M. W. Chu, H. Wen. Chen, C. H. Ma, C. Y. Tsai, H. W. Huang, H. J. Lin, H. L. Liu, P. W. Chiu, and Y. H. Chu
\n\u201cVan der Waal Epitaxy of Flexible and Transparent VO2 Film on Muscovite\u201d,
\nChem, Mater.<\/strong>, 2016, 28(11), 3914-3919. (IF=10.508)<\/p>\n

\u25cfC. Lin, T. Bj\u00f6rkman, H. P. Komsa, P. Y. Teng, C. H. Yeh, F. S. Huang, K. H. Lin, J. Jadczak, Y. S. Huang, P. W. Chiu, A. Krasheninnikov, and K. Suenaga
\n\u201cThree-fold rotational defects in two-dimensional transition metal dichalcogenides\u201d,
\nNature Comm.<\/strong>, 2015, 6:6736. (IF=17.694)<\/p>\n

\u25cfZ. Chen, H. Medina, T. Y. Su, J. G. Li, K.Y. Cheng, P. W. Chiu and Y. L. Chueh,
\n\u201cUltrafast and Low temperature Synthesis of Highly Crystalline and Patternable Few-Layers Tungsten Diselenide by Laser Irradiation Assisted-Selenization Process\u201d,
\nACS Nano<\/strong>, 2015, 9(4), 4346\u20134353. (IF=18.027)<\/span><\/p>\n

\u25cfTian, H. Zhao, X. F. Wang, H. Y. Chen, Q. Y. Xie, M. A. Mohammad, C. Li, W. T. Mi, Z. Bie, Y. Yang, H.-S. P. Wong, P. W. Chiu, T. L. Ren
\n\u201cIn-situ tuning of switching window in a gate-controlled bilayer graphene-electrode resistive memory device\u201d,
\nAdv. Mater.<\/strong>, 2015 ,27(47), 7767-7774. (IF=32.086)<\/p>\n

\u25cfC. Lin, H. P. Komsa, C. H. Yeh, T. Bjorkman, Z. Y. Liang, C. H. Ho, Ying-Sheng Huang, P. W. Chiu, Arkady V. Krasheninnikov, K. Suenaga
\n\u201cSingle-Layer ReS2: Two-Dimensional Semiconductor with Tunable In-Plane Anisotropy\u201d,
\nACS Nano<\/strong>, 2015, 9(1), 11249\u201311257. (IF=18.027)<\/span><\/p>\n

\u25cfC. Lin, P. Y. Teng, C. H. Yeh, M. Koshino, P. W. Chiu, and K. Suenaga
\n\u201cStructural and Chemical Dynamics of Pyridinic-Nitrogen Defects in Graphene\u201d,
\nNano Lett.<\/strong>, 2015, 15(11), 7408-7413. (IF=12.262)<\/p>\n

\u25cfH. Yeh, H. Medina, C. C. Lu, K. P. Huang, Z. Liu, K. Suenaga, and P. W. Chiu*
\n\u201cScalable Graphite\/Copper BishellComposite for High-Performance Interconnects\u201d,
\nACS Nano<\/strong>, 2014, 8(1), 275\u2013282. (IF=18.027)<\/p>\n

\u25cfLiu, Y. C. Lin, C. C. Lu, C. H. Yeh, P. W. Chiu, S. Iijima, K. Suenaga,
\n\u201cIn situ observation of step-edge in-plane growth of graphene in a STEM\u201d,
\nNature Comm.<\/strong>, 2014, 5:4055. (IF=17.694)<\/p>\n

\u25cfH. Yeh, Y. C. Lin, Y. C. Chen, C. C. Lu, Z. Liu, K. Suenaga, P. W. Chiu*
\n\u201cGating Electron-Hole Asymmetry in Twisted Bilayer Graphene\u201d,
\nACS Nano<\/strong>, 2014, 8(7), 6962\u20136969. (IF=18.027)<\/span><\/span><\/p>\n

\u25cfH. Yeh, Y. W. Lain, Y. C. Chiu, C. H. Liao, D. R. Moyano, S. S. H. Hsu, P. W. Chiu* ,\u201cGigahertz Flexible Graphene Transistors for Microwave Integrated Circuits\u201d,
\nACS Nano<\/strong>, 2014, 8(8), 7663\u20137670. (IF=18.027)<\/p>\n

\u25cfZhao, Y. C. Lin, C. H. Yeh, H. Tian, Y. C. Chen, D. Xie, Y. Yang, K. Suenaga, T. L. Ren, P. W. Chiu*
\n\u201cGrowth and Raman Spectra of Single-Crystal Trilayer Graphene with Different Stacking Orientations\u201d,
\nACS Nano<\/strong>, 2014, 8(10), 10766\u201310773. (IF=18.027)<\/span><\/p>\n

\u25cfC. Lu, Y. C. Lin, Z. Liu, C. H. Yeh, K. Suenaga, and P. W. Chiu*
\n\u201cTwisting Bilayer Graphene Superlattices\u201d,
\nACS Nano<\/strong>, 2013, 7(3), 2587\u20132594. (IF=18.027)<\/span><\/p>\n

\u25cfV. Tra, J. W. Chen, P. C. Huang, B. C. Huang, Y. Cao, C. H. Yeh, H. J. Liu, E. A. Eliseev, A. N. Morozovska, J. Y. Lin, Y. C. Chen, M. W. Chu, P. W. Chiu, Y. P. Chiu, L. Q. Chen, C. L. Wu, and Y. H. Chu,
\n\u201cFerroelectric control of the conduction at the LaAlO3\/SrTiO3 heterointerface\u201d,
\nAdv. Mater.<\/strong>, 2013, 25, 3357\u20133364. (IF=32.086)<\/p>\n

\u25cfC. Lin, C. C. Lu, C. H. Yeh, C. Jin, K. Suenaga, and P. W. Chiu*
\n\u201cGraphene annealing: how clean can it be?\u201d,
\nNano Lett.<\/strong>, 2012, 12, 414-419 (IF=12.262)<\/p>\n

\u25cfY. Teng, C. C. Lu, K. Akiyama-Hasegawa, Y. C. Lin, C. H. Yeh, K. Suenaga, P. W. Chiu*
\n\u201cRemote catalyzation for direct formation of graphene layers on oxides\u201d,
\nNano Lett.<\/strong>, 2012, 12, 1379-1384. (IF=12.262)<\/p>\n

\u25cfMedina, Y. C. Lin, C. Jin, C. C. Lu, C. H. Yeh, K. P. Huang, K. Suenaga, J. Robertson, P. W. Chiu*,
\n\u201cMetal-free growth of nanographene on silicon oxides for transparent conducting applications\u201d,
\nAdv. Funct. Mater.<\/strong>, 2012, 22, 2123-2128. (IF=19.924)<\/p>\n

\u25cfC. Lu, Y. C. Lin, C. H. Yeh, J. C. Huang, P. W. Chiu*,
\n\u201cHigh mobility flexible graphene field-effect transistors with self-healing gate dielectrics\u201d,
\nACS Nano,<\/strong> 2012, 6, 4469-4474. (IF=18.027)<\/span><\/p>\n

\u25cfC. Lin, C. H. Jin, J. C. Lee, S. F. Jen, and P. W. Chiu*
\n\u201cClean Transfer of Graphene for Isolation and Suspension\u201d,
\nACS Nano,<\/strong> 2011, 5(3), 2362-2368. (IF=18.027)<\/span><\/p>\n

\u25cfMedina, Y. C. Lin, D. Obergfell, and P. W. Chiu*
\n\u201cTuning of Charge Densities in Graphene by Molecule Doping\u201d,
\nAdv. Funct. Mater.<\/strong>, 2011, 21(14), 2687-2692. (IF=19.924)<\/p>\n

\u25cfM. Choi, D. S. Lee, R. Czerw, P. W. Chiu, N. Grobert, M. Terrones, M. Reyes-Reyes, H. Terrones, J. C. Charlier, P. M. Ajayan, S. Roth, D. L. Carroll, and Y.-W. Park,
\n\u201cNonlinear Behavior in the Thermopower of Doped Carbon Nanotubes Due to Strong, Localized States\u201d,
\nNano Lett.<\/strong>, 2003, 3(6), 839-842. (IF=12.262)<\/p>\n

\u25cfGu, M. Schmid, P. W. Chiu, A. Minett, J. Fraysse, G. T. Kim, and S. Roth,
\n\u201cV2O5 Nanofiber Sheet actuators\u201d,
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[vc_row][vc_column][vc_column_text]\u25c6C. Y. Lin*, B. C. C […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":144,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"ngg_post_thumbnail":0},"_links":{"self":[{"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/pages\/924"}],"collection":[{"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/comments?post=924"}],"version-history":[{"count":71,"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/pages\/924\/revisions"}],"predecessor-version":[{"id":2572,"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/pages\/924\/revisions\/2572"}],"up":[{"embeddable":true,"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/pages\/144"}],"wp:attachment":[{"href":"https:\/\/www.ee.nthu.edu.tw\/pwchiu\/wp-json\/wp\/v2\/media?parent=924"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}