(International) Journal Papers / 55 Papers
#These authors contributed equally; *Corresponding author
----------------------------2024--( papers)--------------------------
55. Chan-Shan Yang#, T.-T. Yeh#, P.-J. Wu, R.-P. Pan, P. Yu, T.-J. Yen*, D. Zhai, E. Herault, F. Garet, J.-L. Coutaz, and C.-L. Pan*, "Electrically and Thermally Tunable Characteristics of Electromagnetically Induced Transparency via Liquid Crystal in a Terahertz Metamaterials," Revised (2023) [Co-First Author]
54. C.-K. Lee, J.-T. Guo, P.-J. Wu, J.-C. Lan, Y.-H. Lin, T.-W. Chiu*, C.-M. Lei, T.-H. Lin, and Chan-Shan Yang*, "Terahertz characteristics of Mg-doped CuCrO2 and its application to 2π phase modulators with high tunable capability," Revised (2023) [Co-Corresponding Author]
53. , "Electrically tunable graphene-based wide-angle ultra-broadband terahertz metamaterial absorber," Revised (2023) [Corresponding Author]
52. C.-Y. Lu, Y.-C. Sung, C.-H. Yeh, Y.-H. Chen, C.-Y. Kuan, K.-T. Hung, W.-H. Chen, W.-D. Hsu*, C.-F. Shih*, and Chan-Shan Yang*, "Terahertz characterization of nano-scale high-entropy alloy films and their high-contrast grating applications," AIP Advances, Vol. 14 (29th Feb., 2024) IF: 1.6. [Co-Corresponding Author]
51. O. Wada, D. Ramachari, Chan-Shan Yang, T. Uchino, and C.-L. Pan, "Absorption dispersion below boson peak frequency in oxide glasses studied by THz-time domain spectroscopy," Journal of Applied Physics, Vol. 135, Issue 8, 085108 (27th Feb., 2024) IF:2.877, [74/161 = 45.96%, Physics, Applied].
50. J. Singh*, N. A. Astarini, M.-L. Tsai*, M. Venkatesan, C.-C. Kuo, Chan-Shan Yang, and Hung-Wei Yen, "Growth of Wafer-Scale Single-Crystal 2D Semiconducting Transition Metal Dichalcogenide Monolayers," Advanced Science, 2307839 (2nd Jan., 2024) IF:17.521.
----------------------------2023--(6 papers)---------------------------
49. P.-J. Wu, J.-T. Hung, C.-F. Hsieh, C.-R. Yang*, and Chan-Shan Yang*, "High-selectivity terahertz metamaterial nitric oxide sensor based on ZnTiO3 perovskite membrane," APL Photonics, Vol. 8, Issue. 10, 106103 (28th Aug., 2023) IF:6.382. [Co-Corresponding Author]
48. Y.-A. Wei, P.-J. Wu, P.-Y. Tsai, K.-L. Chen, and Chan-Shan Yang*, "Enhanced tunable terahertz Mie resonance and magnetoplasmonic effect through chain formation in ferrofluid," Applied Physics Letters, Vol. 123, Issue. 9, 091101 (28th Aug., 2023). [Corresponding Author]
47. H.-Y. Peng#, Y.-A. Wei#, K.-C. Lin, S.-F. S. Hsu, J.-C. Chen, C.-P. Cheng*, and Chan-Shan Yang*, "Terahertz characterization of functional composite material based on ABS mixed with ceramic powder," Optical Materials Express, Vol. 13, Issue. 9, pp. 2622-2632 (1st Sep., 2023) IF:3.074, [36/101 = 35.6 %, Optics]. [Co-Corresponding Author]
46. S. Chahal, A. Bandyopadhyay, Chan-Shan Yang*, and P. Kumar*, "Beryllene, the lightest Xene," npj 2D Materials and Applications, Vol. 7, No. 55, pp. 469-478 (18th Aug., 2023) IF:10.156, [21/176 = 11.65%, Physics, Applied]. [Co-Corresponding author]
45. O. Wada*, D. Ramachari, Chan-Shan Yang, Y. Harada, T. Uchino, and C.-L. Pan, "Mechanisam of THz dielectric constant enhancement in multi-component oxide glasses investigated by infrared and THz spectroscopies," Journal of Physics and Chemistry of Solids, Vol. 176, 111237 (May, 2023) IF:4.383, [22/66 = 32.6%, Physics, Condensed Matter].
44. P.-J. Wu#, W.-C. Tsai#, and Chan-Shan Yang*, "Electrically tunable graphene-based multi-band terahertz metamaterial filters," Optics Express, Vol. 31, No. 1, pp. 469-478 (2nd Jan., 2023) IF:3.833, [28/101 = 27.72%, Optics] [Corresponding Author]
----------------------------2022--(7 papers)-------------------------
43. A. K. Sahoo, Y.-H. Lin, Chan-Shan Yang, O. Wada, C.-L. Yen, and C.-L. Pan*, "Electrically tunable dual-layer twisted nematic liquid crystal THz phase shifters with intermediate composite polymer thin film," Optical Materials Express, Vol. 12, No. 12, pp. 4733-4754 (1st Dec., 2022) IF:3.074, [36/101 = 35.6 %, Optics].
42. L.-X. Yang#, Y.-C. Liu#, C.-H. Cho#, Y.-R. Chen#, Chan-Shan Yang#, Y.-L. Lu, Z. Zhang, Y.-T. Tsai, Y.-C. Chin, J. Yu, H.-M. Pan, W.-R. Jiang, Z.-C. Chia, W.-S. Huang, Y.-L. Chiu, C.-K. Sun, Y.-T. Huang, L.-M. Chen, K.-T. Wong, H.-M. Huang, C.-H. Chen*, Y. J. Chang*, C.-C. Huang*, and T.-M. Liu*, "A universal strategy for the fabrication of single-photon and multiphoton NIR nanoparticles by loading organic dyes into water-soluble polymer nanosponges," Journal of Nanobiotechnology, Vol. 20, No. 311 (6th Jul., 2022) IF:9.429, [14/159 = 8.8%, Biotechnology & Applied Microbiology]. [Co-First Author]
41. C.-H. Wu, C.-J. Ku, M.-W. Yu, J.-H. Yang, T.-C. Lu, T.-R. Lin, Chan-Shan Yang, and K.-P. Chen*, "Nonscattering Photodetection in Propagation of Unidirectional Surface Plasmon Polaritons Embedded with Graphene," ACS Applied Materials & Interfaces, Vol. 14, pp. 30299-30305 (8th Jun., 2022) IF:10.38, [49/345 = 14.2%, Materials Science, Multidisciplinary].
40. J.-C. Lan, Chan-Shan Yang, C.-H. Chen, C.-M. Cheng, H. Liu*, and C.-K. Lee*, "Evolution of optical nonlinearity within graphene/Bi2Te3 heterostructure," Journal of Materials Chemistry C, Vol. 10, pp. 9017-9024 (12th May, 2022) IF:8.067, [24/161 = 14.9%, Physics, Applied].
39. K. Vishwakarma, S. Rani, S. Chahal, C.-Y. Lu, S. J. Ray, Chan-Shan Yang*, and P. Kumar*, "Quantum-coupled borophene-based heterolayers for excitonic and molecular sensing applications," Physical Chemistry Chemical Physics, Vol. 24, pp. 12816-12826 (10th May., 2022) IF:3.945, [9/36 = 25%, Physics, Atomic, Molecular & Chemical]. [Co-Corresponding Author]
38. H. Li, Z.-T. Huang, K.-B. Hong, M.-W. Yu, C.-H. Wu, Chan-Shan Yang, T.-R. Lin, K.-P. Chen, and T.-C. Lu*, "Development of surface plasmon polariton-based nanolasers," Journal of Applied Physics, Vol. 131, 011101 (3rd Jan., 2022) be promoted as an Editor's Pick IF:2.877, [74/161 = 45.96%, Physics, Applied].
37. H.-Y. Peng#, Y.-A. Wei#, Y.-C. Hsu, K.-C. Lin, P.-Y. Yeh, Chan-Shan Yang*, and C.-P. Cheng*, "Complex optical properties of polymeric composite materials mixed with quartz powder investigated by THz time-domain spectroscopy," Optical Materials Express, Vol. 12, No. 1, pp. 22-33 (1 Jan., 2022) IF:3.074, [36/101 = 35.6 %, Optics]. [Co-Corresponding Author]
----------------------------2021----(7 papers)-----------------------
36. Chan-Shan Yang*, Y.-S. Cheng, Y.-C. Hsu, Y.-C. Chung, J.-T. Hung, C.-H. Liu, J.-C. Hsu, C.-Y. Chen, C.-R. Yang, Y.-T. Li, N.-N. Huang*, and T.-R. Lin*, "Hybrid Graphene-Based Photonic-Plasmonic Biochemical Sensor with the Photonic and Acoustic Cavity Structure," Crystals, Vol. 11, No. 10, 1175 (28th Sep., 2021) IF:2.67, [12/26 = 46.15%, Crystallography] [First Author & Co-Corresponding Author]
35. O. Wada*, D. Ramachari, Chan-Shan Yang, and C.-L. Pan, "Interrelationship among dielectric constant, energy band parameters and ionicity in multi-component oxide glasses revealed by optical- and THz-band spectroscopy," Journal of Non-Crystalline Solids, Vol. 573, 121135 (30th Aug., 2021) IF:4.458, [4/29 = 13.8 %, Materials Science, Ceramics]
34. H.-Y. Peng#, Chan-Shan Yang#,*, Y.-A. Wei, Y.-C. Ruan, Y.-C. Hsu, C.-F. Hsieh, and C.-P. Cheng*, "Terahertz Complex Refractive Index Properties of the Acrylonitrile Butadiene Styrene with Rice Husk Ash and Its Possible Applications to 3D Printing Technique," Optical Materials Express, Vol. 11, no. 8, pp. 2777-2786 (1st Sep., 2021) IF:3.074, [36/101 = 35.6 %, Optics]. [Co-First Author & Co-Corresponding Author]
33. J.-H. Yang, Z.-T. Huang, D. N. Maksimov, P. S. Pankin, I. V. Timofeev, K.-B. Hong, H. Li, J.-W. Chen, C.-Y. Hsu, Y.-Y. Liu, T.-C. Lu, T.-R. Lin, Chan-Shan Yang, and K.-P. Chen*, "Low-threshold Bound State in the Continuum Lasers in Hybrid Lattice Resonance Metasurfaces," Laser & Photonics Reviews, 2100118 (16th, Aug., 2021) IF:13.138 , [6/101 =5.9%, Optics].
32. O. Wada*, D. Ramachari, Chan-Shan Yang, T. Uchina, and C.-L. Pan*, "Systematic Characterization of THz Dielectric Properties of Multi-component Glasses Using Unified Oscillator Model," Optical Materials Express, Vol.11, issue 3, pp.858-874 (1st Mar., 2021) IF:3.074, [36/101 = 35.6 %, Optics].
31. K. B. Simbulan, T.-D. Huang, G.-H. Peng, F. Li, G. Sanchez, O. Javier, J.-D. Lin, C.-I Lu, Chan-Shan Yang, J. Qi, S.-J. Cheng, T.-H. Lu*, and Y.-W. Lan*, “Selective Photoexcitation of Finite-momentum Excitons in Monolayer MoS2 by Twisted Light,” ACS Nano, Vol. 15, No. 2, pp. 3481-3489 (10th Feb., 2021) IF:14.588, [20/345 = 5.8 %, Materials Science, Multidisciplinary].
30. Chan-Shan Yang*, Y.-C. Chung*, Y.-S. Cheng, Y.-C. Hsu, C.-F. Chen, N.-N. Huang*, H.-C. Chen*, C.-H. Liu*, J.-C. Hsu*, Y.-F. Lin*, and T.-R. Lin*, “Electrically Tunable Plasmonic Biosensors Based on Cavity-Coupled Structure with Graphene,” IEEE Journal of Selected Topics in Quantum Electronics, vol.27, issue 4, 4601208 (July, 2021) IF:4.917, [21/101 = 20.79%, Optics]. [First Author & Co-Corresponding Author]
----------------------------2020------(2 papers)---------------------
29. C. Lien*, C.-F. Hsieh, T.-C. Wu, Chan-Shan Yang, M.-H. Lee, J.-J. Xu, C.-W. Hu, C. Huang, S.-Z. Chang, and M.-H. Liao*, "The Investigation for Thickness-Dependent Electrical Performance on BaTiO3/BiFeO3 Bilayer Ferromagnetic Capacitors," IEEE Transactions on Electron Devices, 67, no. 8, pp. 3417-3423 (Aug., 2020) IF:2.913, Physics:34.52%.
28. O. Wada*, D. Ramachari, Chan-Shan Yang, T. Uchino, and C.-L. Pan*, "High refractive index properties of oxyfluorosilicate glasses and a unified dielectric model of silicate oxide glasses in the sub-terahertz frequency region," Optical Materials Express 10, issue 2, 607-621 (Feb. 1st, 2020) IF:3.442, Material science:41.56%, Optics:24.23%.
----------------------------2019-------(8 papers)--------------------
27. C.-T. Wang*, Chan-Shan Yang, and Q. Guo, "Liquid Crystal and Physics: Recent Advances and Prospects," Crystals 9, no.12, 670 (2019) IF:2.589, Crystallography:36.54%, Material Science:52.39%.
26. C. Jin, E. C. Regan, D. Wang, M. I. B. Utama, Chan-Shan Yang, J. Cain, Y. Qin, Y. Shen, Z. Zheng, K. Watanabe, T. Taniguchi, S. Tongay, A. Zettl, and F. Wang*, "Identification of spin, valley and moiré quasi-angular momentum of interlayer excitons," Nature Physics 15, 1140–1144 (2019) IF:20.113, Physics:2.94%.
25. A. K. Sahoo#, Chan-Shan Yang#, O. Wada, and C.-L. Pan*, "Twisted Nematic Liquid Crystal Based Terahertz Phase Shifter with Crossed Indium Tin Oxide Finger Type Electrodes," IEEE Transactions on Terahertz Science and Technology 9, no.4, 399-408 (2019) IF:3.030, Optics:34.54%. [Co-First Author]
24. C.-F. Hsieh#, Chan-Shan Yang#,*, F.-C. Shih, Ru-Pin Pan, and C.-L. Pan*, "Liquid-crystal-based magnetically tunable terahertz achromatic quarter-wave plate," Optics Express 27, No. 7 , pp. 9933-9940 (2019) IF:3.669, Optics:19.07%. [Co-First Author & Co-Corresponding Author]
23. Patrick Gallagher*, Chan-Shan Yang, Tairu Lyu, Fanglin Tian, Rai Kou, Hai Zhang, Kenji Watanabe, Takashi Taniguchi, and Feng Wang*, "Quantum-critical conductivity of the Dirac fluid in graphene," Science 364, issue 6436, pp. 158-162 (2019) IF:47.728, Multidisciplinary Sciences:2.05%.
22. D. Ramachari, Chan-Shan Yang, O. Wada, T. Uchino, and C.-L. Pan*, "High-Refractive Index, Low-Loss Oxyfluorosilicate Glasses for Sub-THz and Millimeter Wave Applications," Journal of Applied Physics 125, 151609 (2019) IF:2.593, Optics:34.54%.
21. A. K. Sahoo#, Chan-Shan Yang#, C.-L. Yen, H. C. Lin, Y.-J. Wang, Y.-H. Lin, O. Wada, and C.-L. Pan*, "Twisted Nematic Liquid-Crystal-Based Terahertz Phase Shifter using Pristine PEDOT:PSS Transparent Conducting Electrodes," Applied Sciences 9(4), 761 (2019) IF:2.474, Engineering:34.62%. [Co-First Author]
20. Chan-Shan Yang*, Chun Kuo, Po-Han Chen, Wei-Ta Wu, Ru-Pin Pan, Peichen Yu, and Ci-Ling Pan*, "High-Transmittance 2π Electrically Tunable Terahertz Phase Shifter with CMOS-Compatible Driving Voltage Enabled by Liquid Crystals," Applied Sciences 9(2), 271 (2019) IF:2.474, Engineering:34.62%. [First Author & Co-Corresponding Author]
----------------------------2018------(1 papers)----------------------------
19. C.-K. Yong#,*, J. Horng#, Y. Shen, H. Cai, A. Wang, Chan-Shan Yang, C.-K. Lin, S. Zhao, K. Watanabe, T. Taniguchi, S. Tongay, and F. Wang*, “Biexcitonic optical Stark effects in monolayer molybdenum diselenide,” Nature Physics 14, 1092–1096 (2018) IF:20.034, Physics, Multidisciplinary:4.12%.
----------------------------2010~2017------(18 papers)---------------------
18. T. W. Wright, E. G. Champenois, J. P. Cryan, N. Shivaram*, Chan-Shan Yang, and A. Belkacem, “Ultrafast dynamics of the lowest-lying neutral states in carbon dioxide,” Physical Review A 95, 023412 (2017)
17. E. G. Champenois*, N. H. Shivaram, T. W. Wright, Chan-Shan Yang, A. Belkacem, and J. P. Cryan, “Involvement of a low-lying Rydberg state in the ultrafast relaxation dynamics of ethylene,” Journal of Chemical Physics 144, No. 1, 014303 (2016)
16. Chan-Shan Yang, C. Kuo, C.-C. Tang, J. C. Chen, R.-P. Pan, and C.-L. Pan*, “Liquid-crystal Terahertz Quarter-wave Plate Using Chemical-vapor-deposited Graphene Electrodes,” IEEE Photonics Journal 7, Issue 6, Article#: 2200808 (2015) [First Author]
15. Chan-Shan Yang, C.-H. Lin, A. Zaytsev, K.-C. Teng, T.-H. Her, and C.-L. Pan*, “Femtosecond laser ablation of polymethylmethacrylate via dual-color synthesized waveform,” Applied Physics Letters 106, Issue 5, art. 051902 (2015) [First Author]
14. Chan-Shan Yang, Ru-Pin Pan, and Ci-Ling Pan*, "Liquid crystal photonics with indium tin oxide nanowhiskers and graphene as functional electrodes", Proc. SPIE 9384, Emerging Liquid Crystal Technologies X, 93840Q (11 March 2015); https://doi.org/10.1117/12.2079324 [First Author]
13. Chan-Shan Yang, Tsung-Ta Tang, Po-Han Chen, Ru-Pin Pan, Peichen Yu, and Ci-Ling Pan*, “Voltage-controlled liquid-crystal terahertz phase shifter with indium-tin-oxide nanowhiskers as transparent electrodes,” Optics Letters 39, No.8, pp. 2511-2513 (2014) [First Author]
12. Chan-Shan Yang, Tsung-Ta Tang, Ru-Pin Pan, Peichen Yu, and Ci-Ling Pan*, “Liquid crystal terahertz phase shifters with functional indium-tin-oxide nanostructures for biasing and alignment,” Applied Physics Letters 104, 141106 (2014) [First Author]
11. Chan-Shan Yang, Chan-Ming Chang, Po-Han Chen, Peichen Yu, and Ci-Ling Pan*, “Broadband terahertz conductivity and optical transmission of indium-tin-oxide (ITO) nanomaterials,” Optics Express 21, No. 14, pp. 16670-16682 (2013) [First Author]
10. Chan-Shan Yang*, Mao-Hsiang Lin, Chia-Hua Chang, Peichen Yu, Jia-Min Shieh, Chang-Hong Shen, Osamu Wada, and Ci-Ling Pan*, “Non-Drude Behavior in Indium-Tin-Oxide Nanowhiskers and Thin Films Investigated by Transmission and Reflection THz Time-Domain Spectroscopy,” IEEE Journal of Quantum Electronics 49, No. 8, pp. 677-690 (2013) [First Author & Co-Corresponding Author]
09. Rone-Hwa Chou*, Chan-Shan Yang*, and Ci-Ling Pan*, “Effects of pump pulse propagation and spatial distribution of bias fields on terahertz generation from photoconductive antennas, ” Journal of Applied Physics 114, 043108 (2013) [Co-Corresponding Author]
08. Rone-Hwa Chou*, Chan-Shan Yang*, and Ci-Ling Pan*, “Correlation approach to propagation of terahertz pulse in dielectrics for material characterization,” IEEE Photonics Technology Letters 25, No. 14, pp. 1389-1391 (2013) [Co-Corresponding Author]
07. Chan-Shan Yang, Chia-Hua Chang, Mao-Hsiang Lin, Peichen Yu, Osamu Wada, and Ci-Ling Pan*, “THz conductivities of indium-tin-oxide nanowhiskers as a graded-refractive-index structure,” Optics Express 20, No. S4, pp. A441~A451 (2012) [First Author]
06. Jin-Wei Shi*, Cheng-Yo Tsai, Chan-Shan Yang, Feng-Ming Kuo, Yue-Ming Hsin, J. E. Bowers, and Ci-Ling Pan, “GaAs/In0.5Ga0.5P Laser Power Converter with Undercut Mesa for Simultaneous High-Speed Data Detection and DC Electrical Power Generation,” IEEE Electron Device Letters 33, issue 4, pp. 561-563 (2012)
05. Yi-Ju Chiang, Chan-Shan Yang, Yu-Hang Yang, Ci-Ling Pan, and Ta-Jen Yen*, “An ultrabroad terahertz bandpass filter based on multiple-resonance excitation of a composite metamaterial,” Applied Physics Letters 99, 191909 (2011)
04. Chao-Kuei Lee*, Chan-Shan Yang, Sung-Hui Lin, Shiuan-Hua Huang, Osamu Wada, and Ci-Ling Pan*, “Effects of Two-photon Absorption on Terahertz Radiation Generated by Femtosecond-laser Excited Photoconductive Antennas,” Optics Express 19, No. 24, pp. 23690~23697 (2011)
03. Jin-Wei Shi*, F.-M. Kuo, Chan-Shan Yang, S.-S. Lo, and C.-L. Pan, “Dynamic Analysis of Cascade Laser Power Converters for Simultaneous High-Speed Data Detection and Optical-to-Electrical DC Power Generation,” IEEE Transactions on Electron Devices 58, No. 7, pp. 2049~2056 (2011)
02. Chan-Shan Yang, Chia-Jen Lin, Ru-Pin Pan*, Christopher T. Que, Kohji Yamamoto, Masahiko Tani, and Ci-Ling Pan*, “The complex refractive indices of the liquid crystal mixture E7 in the terahertz frequency range,” Journal of the Optical Society of America B-Optical Physics (JOSA B, Optical Physics) 27, No. 9, Page 1866~1873 (2010) [First Author]
01. Yu-Tai Li, Jin-Wei Shi*, C.-Y. Huang, Nan-Wei Chen, Shu-Han Chen, Jen-Inn Chyi, Yi-Chao Wang, Chan-Shan Yang, and Ci-Ling Pan*, “Characterization and Comparison of GaAs/AlGaAs Uni-Traveling Carrier and Separated-Transport-Recombination Photodiode Based High-Power Sub-THz Photonic Transmitters,” IEEE Journal of Quantum Electronics 46, No. 1, pp. 19~27 (2010)