LIST of PUBLICATIONS

研究亮點: 影響因子高於10共9篇

凝態物理頂尖期刊PNAS、Mater. Today Phys.、Phys. Rev. B、Phys. Rev. Materials、Appl. Phys. Lett.及Adv. Physics Res.共31篇

兩篇被Phys. Rev. B編輯選為Editors' suggestion

兩篇獲得NSRRC研究亮點報導

一篇獲得Adv. Physics Res.封面內頁報導

本實驗特色中子散射&高壓效應相關特別標記

MANUSCRIPTS UNDER REVIEW:

One manuscript is under Phys. Rev. Res. for review (Corresponding author)

One manuscript is submitted to Adv. Mater. 中子散射

LIST of PUBLICATIONS:

2025

1. H. Tamatsukuri, T. Kozawa, S. Mitsuda, M. Fujihala, K. Kinjo, K. Nawa, H. C. Wu, T. J. Sato, and S. Yano, “Irreversible process of the atomic reconstruction phenomenon induced by uniaxial stress in MnP”, Phys. Rev. B (Accepted) IF: 3.7 中子散射 高壓效應

2. T. W. Kuo, C. C. Chen, D. Chandrasekhar Kakarla, A. Tiwari, C. W. Wang, M. Gooch, L. Z. Deng, C. W. Chu, H. D. Yang, and H. C. Wu*, “Enhanced Néel-type skyrmion stability in polar VOSe2O5 through tunable magnetic anisotropy under pressure”, Phys. Rev. B 112, 024441 (2025) (Corresponding author) IF: 3.7 中子散射 高壓效應

3. D. Chandrasekhar Kakarla, A. Tiwari, Y. H. Tseng, T. W. Yen, H. C. Wu, C. W. Wang, M. J. Hsieh, J.-Y. Lin, A. Pal, C. Dhanasekhar, D. P. Gulo, H. L. Liu, and H. D. Yang, “Spin-reorientation induced hidden electric polarization in the noncentrosymmetric berlinite magnetic oxide 𝛼-FePO4”, Phys. Rev. B  111, 214418 (2025) IF: 3.7 中子散射

4. P. C. Wei, Y. S. Tseng, H. Y. Tseng, S. J. Wu, J. K. Hu, T. Y. Yung, T. C. Chen, H. C. Wu, C. M. Wu, and W. H. Li, “Thermally sensitive infra-red absorption bands and lattice incommensurability in photoelectric (CH3NH3)PbI3”, Phys. Rev. Materials 9, 055401 (2025) IF:3.4 中子散射

5. Y. Kusanose, Y. Shimura, K. Umeo, N. Kawata, T. Takabatake, T. Terashima, N. Kikugawa, T. Konoike, Y. Hattori, K. Nawa, H. C. Wu, T. J. Sato, and T. Onimaru, “Multipolar phase transition in the 4f2 fcc lattice compound PrCdNi4”, Phys. Rev. B 111, 165125 (2025) IF: 3.7 中子散射

6. K. Inoh, R. Koizumi, T. Takahashi, H. Fujimoto, H. Ebisawa, A. Yashiro, M. Kohinata, A. Hosogai, A. Matsuo, K. Kindo, I. Kawasaki, D. Okuyama, H. C. Wu, T. J. Sato, K. Tenya, K. Ohoyama, K. Iwasa, and M. Yokoyama, “Continuously evolving antiferromagnetic order within the superconducting phase in Zn-doped CeCoIn5”, Phys. Rev. B 111, 104510 (2025) IF: 3.7 中子散射

7. H. Jin, E. S. Choi, H. C. Wu, N. J. Curro, K. Nawa, T. J. Sato, R. Kiyanagi, T. Ohhara, P. Klavins, and V. Taufour, “Multiple metamagnetic transitions in helical antiferromagnet CeVGe3”, Phys. Rev. B 111, 035103 (2025) IF: 3.7 中子散射

8. J. K. Hu, Y. J. Lee, C. H. Lee, C. M. Wu, H. C. Wu,  K. Nawa, K. Kinjo, T. J. Sato, and P. C. Wei, “Dual crystal-liquid thermal transport behavior in MAPbCl3”, Small 21, 2408773 (2025) IF:12.1 中子散射

2024

9. Y. Shi, H. Cao, H. C. Wu, L. Yin, N. Harrison, D. S. Parker, T. Bhowmick, T. McNamee, F. Safari, S. L. Budko, J. C. Fettinger, S. M. Kauzlarich, P. Klavins, D. Popov, R. Kumar, R. J. Hemley, S. Deemyad, T. J. Sato, P. C. Canfield, and V. Taufour, “Anomalous temperature-dependent magnetization in the nearly collinear antiferromagnet Y2Co3”, Phys. Rev. B 110, 235159 (2024) IF: 3.7 中子散射

10. D. Chandrasekhar Kakarla, Y. H. Ku, H. C. Wu, C. C. Chen, M. Y. Hsu, T. R. Hu, J. -Y. Lin, N. Puri, M. -J. Hsieh, C. W. Wang, W. -H. Li, D. C, A. Tiwari, C. H. Lu, K. J. You, T. W. Kuo, K. J. Fan, Y. C. Chang, and H. D. Yang, “Exploring new members of magnetoelectric materials in CuO-CuCl2-SeO2 system”, Mater. Today Phys. 46, 101527 (2024) IF:9.7 中子散射

11. H. C. Wu*, T. Aoyama, D. Morikawa, D. Okuyama, K. Nawa, W. T. Chen, C. H. Lu, T. W. Yen, S. M. Huang, S. Calder, S. Torii, K. Ohgushi, M. Terauchi, and T. J. Sato, “Observation of thermally induced piezomagnetic switching in Cu2OSeO3 polymorph synthesized under high-pressure”, Adv. Physics Res. 3, 2400054 (2024) (Corresponding author) IF:2.8中子散射 高壓效應 封面內頁

12. K. Nawa, D. Okuyama, H. C. Wu, R. Murasaki, S. Matsuzaka, K. Kinjo, and T. J. Sato, “Present status and future prospects of the thermal-neutron triple-axis spectrometer 4G-GPTAS”, J. Phys. Soc. Jpn. 93, 091001 (2024) IF: 1.7 中子散射

13. P. Piyawongwatthana, K. Nawa, S. Calder, D. Okuyama, H. C. Wu, and T. J. Sato, “Magnetic structure and magnetoelectric effect in the centrosymmetric antiferromagnet Cu2(MoO4)(SeO3)”, Phys. Rev. B 109, 224420 (2024) IF: 3.7 (Editors' suggestion) 中子散射

14. C. H. Lai, C. W. Wang, H. C. Wu, Y. H. Liang, A. J. Studer, W. T. Chen, and C. H. Du, “Tunable magnetic structures in the helimagnet YBa(Cu1-xFex)2O5”, Phys. Rev. Materials 8, 054404 (2024) IF:3.4 中子散射

15. P. C. Wei, C. R. Hsing, C. C. Yang, Y. H. Tung, H. J. Wu, W. T. Yen, Y. C. Lai, J. J. Lee, C. W. Wang, H. C. Wu, H. D. Yang, V. Singaravelu, X. Miao, A. Giugni, J. K. Hu, J. H. Fu, V. Tung, J. He, C. M. Wei, and J. H. He, “Liquid-like thermal conductivity in solid materials: Dynamic behavior of silver ions in argyrodites”, Nano Energy 122, 109324 (2024) IF:17.1 中子散射 高壓效應

16. F. Labib, K. Nawa, S. Suzuki, H. C. Wu, A. Ishikawa, K. Inagaki, T. Fuji, T. J. Sato, and R. Tamura, “Unveiling exotic magnetic phase diagram of a non-Heisenberg quasicrystal approximant”, Mater. Today Phys. 40, 101321 (2024) IF:9.7 中子散射

2023

17. C. Chaffey, H. C. Wu*, H. Jin, P. Sherpa, P. Klavins, M. Avdeev, S. Aji, R. Shimodate, K. Nawa, T. J. Sato, V. Taufour, and N. J. Curro, “Magnetic structure and Kondo lattice behavior in CeVGe3: an NMR and neutron scattering study”, Phys. Rev. B 108, 115163 (2023) (Corresponding author) IF: 3.7 中子散射

18. H. Yamamoto, H. C. Wu, A. Miyake, M. Tokunaga, A. Suzuki, T. Honda, and H. Kimura, “Magnetic field-induced phase transition in ilmenite-type CoVO3”, Appl. Phys. Lett. 123, 132404 (2023) IF:3.6 中子散射 高壓效應

19. H. C. Wu*, A. Nakamura, D. Okuyama, K. Nawa, D. Aoki, and T. J. Sato, “Unraveling the magnetic structure of YbNiSn single crystal via crystal growth and neutron diffraction”, J. Magn. Magn. Mater. 584, 171054 (2023) (Corresponding author) IF:3.0 中子散射

2022

20. H. J. Chen, C. H. Yeh, T. W. Kuo, D. Chandrasekhar Kakarla, H. C. Wu, T. W. Yen, S. M Huang, H. Chou, M. C. Chou, H. W. Chen, S. W. Kuo, Y. C. Chuang, C. K. Chang, U. Eckstein, N. H. Khansur, K. G. Webber, and H. D. Yang, “Unique multiferroics with tunable ferroelastic transition in antiferromagnet Mn2V2O7”, Mater. Today Phys. 23, 100623 (2022) IF:10 高壓效應

21. A. Tiwari, D. Chandrasekhar Kakarla, G. Macam, C. H. Hsu, F. C. Chuang, H. C. Wu, T. W. Kuo, A. Pal, H. Chou, D. P. Gulo, H. L. Liu, Y. C. Chuang, Y. C. Lai, C. A. Lee, M. C. Chou, and H. D. Yang, “Spin-lattice-charge coupling in quasi-one-dimensional spin-chain NiTe2O5”, Phys. Rev. Materials 6, 044409 (2022) IF:3.4

22. T. W. Yen, H. C. Wu, and S. M. Huang, “First-principles study of the crystal and magnetic structures of multiferroic Cu2OCl2”, J. Phys.: Condens. Matter 34, 335602 (2022) IF:2.6

2021

23. M. Adnani, M. Gooch, L. Z. Deng, S. Agrestini, J. Herrero-Martin, H. C. Wu, C. K. Chang, T. Salavati-fard, J. L. García-Muñoz, N. Poudel, S. Daneshmandi, Z. Wu, L. C. Grabow, Y. C. Lai, H. D. Yang, E. Pellegrin, and C. W. Chu, “Magnetocapacitance effect and magnetoelectric coupling in type-II multiferroic HoFeWO6”, Phys. Rev. B 103, 094110 (2021) IF: 3.7

24. H. C. Wu*, Y. C. Chung, T. W. Yen, H. J. Chen, T. W. Kuo, D. Chandrasekhar Kakarla, S. M. Huang, Y. -Y. Wang, J. -Y. Lin, J. J. Lee, Y. C. Lai, C. L. Chen, J. F. Lee, T. L. Chou, Y. -C. Lai, M. -W. Chu, Mitch M. C. Chou, and H. D. Yang, “Evidence of a structural phase transition in triangular lattice CuIr2Te4”, Phys. Rev. B 103, 104111 (2021) (Corresponding author) (Phys. Rev. B TopDownload 2021/04/12) IF:3.7 高壓效應

25. D. Chandrasekhar Kakarla, Z. H. Yang, H. C. Wu, T. W. Kuo, A. Tiwari, W.-H. Li, C. H. Lee, Y.-Y. Wang, J.-Y. Lin, C. K. Chang, B. H. Chen, C. W. Wang, C. A. Lee, Mitch M. C. Chou, and H. D. Yang, “Single crystal growth and structural, magnetic, and magnetoelectric properties in spin-frustrated bow-tie lattice of α-Cu5O2(SeO3)2Cl2”, Mater. Adv. 2, 7939-7948 (2021) IF:4.7 中子散射

2020

26. H. C. Wu, P. J. Sun, D. J. Hsieh, H. J. Chen, K. D. Chandrasekhar, L. Z. Deng, C. W. Chu, and H. D. Yang, “Observation of skyrmion-like magnetism in magnetic Weyl semimetal Co3Sn2S2, Mater. Today Phys. 12, 100189 (2020) IF:9.7 高壓效應

27. L. Z. Deng, H. C. Wu, A. P. Litvinchuk, F. Q. Yuan, J. J. Lee, R. Dahal, L. Fu, H. Berger, H. D. Yang, and C. W. Chu, “Room-temperature skyrmion phase in bulk Cu2OSeO3 under high pressures”, PNAS 117, 8783 (2020) (Co-first author) (Research Highlights at NSRRC 2020) IF:8.9 高壓效應

28. R. Dahal, L. Z. Deng, N. Poudel, M. Gooch, Z. Wu, H. C. Wu, H. D. Yang, C. K. Chang, and C. W. Chu, “Tunable structural phase transition and superconductivity in Weyl semimetal Mo1−xWxTe2”, Phys. Rev. B 101, 140505(R) (2020) IF: 3.7 高壓效應

29. H. C. Wu*, D. J. Hsieh, T. W. Yen, P. J. Sun, D Chandrasekhar Kakarla, J. L. Her, Y. H. Matsuda, C. K. Chang, Y. C. Lai, M. Gooch, L. Z. Deng, K. G. Webber, C. A. Lee, Mitch M. C. Chou, C. W. Chu, and H. D. Yang, “Pressure and magnetic field effects on ferroelastic and antiferromagnetic orderings in honeycomb-lattice Mn2V2O7”, Phys. Rev. B 102, 075130 (2020) (Corresponding author) (Research Highlights at NSRRC 2020) IF: 3.7 高壓效應

2019

30. K. D. Chandrasekhar, J. Krishna Murthy, J. -Y. Lin, H. C. Wu, and H. D. Yang, “Observation of oscillation like magnetocaloric effect in multiferroic Ni0.95Zn0.05Cr2O4”, J. Alloys. Compd. 771, 674 (2019) IF:6.2

31. H. C. Wu, J. K. Yuan, K. D. Chandrasekhar, C. H. Lee, W. H. Li, C. W. Wang, J. M. Chen, J. -Y. Lin, H. Berger, T. W. Yen, S. M. Huang, C. W. Chu, and H. D. Yang, “Observation of charge-transfer-driven antiferroelectricity in 3d-pyrochlore multiferroic Cu2OCl2”, Mater. Today Phys. 8, 34 (2019) IF:9.7 中子散射

32. L. Z. Deng, Y. P. Zheng, Z. Wu, S. Y. Huyan, H. C. Wu, Y. F. Nie, K. Cho, and C. W. Chu, “Higher superconducting transition temperature by breaking the universal pressure relation”, PNAS 116, 2004 (2019) IF:8.9 高壓效應

33. D. Chandrasekhar Kakarla, H. C. Wu, D. J. Hsieh, P. J. Sun, G. J. Dai, J. -Y. Lin, J. L. Her, Yasuhiro H. Matsuda, L. Z. Deng, M. Gooch, C. W. Chu, and H. D. Yang, “Metamagnetic transitions and magnetoelectric coupling in acentric and nonpolar Pb2MnO4”, Phys. Rev. B 99, 195129 (2019) IF: 3.7 高壓效應

34. A. S. Sukhanov, P. Vir, A. S. Cameron, H. C. Wu, N. Martin, S. Muhlbauer, A. Heinemann, H. D. Yang, C. Felser, and D. S. Inosov, “Increasing the skyrmion stability in Cu2OSeO3 by chemical substitution, Phys. Rev. B 100, 184408 (2019) IF: 3.7 中子散射

35. H. C. Wu, K. N. Denisova, K. D. Chandrasekhar, O. V. Maximova, T. W. Kuo, C. H. Lee, W. H. Li, H. Berger, C. W. Wang, C. K. Chang, Y. C. Chung, J. -Y. Lin, M. Gooch, C. W. Chu, H. D. Yang, and A. N. Vasiliev, “Antiferroelectric antiferromagnetic type-I multiferroic Cu9O2(SeO3)4Cl6”, Phys. Rev. B 100, 245119 (2019) IF: 3.7 中子散射

2018

36. W. T. Chen, C. W. Wang, H. C. Wu, F. C. Chou, H. D. Yang, A. Simonov, and M. S. Senn, “Improper ferroelectric polarization in a perovskite driven by inter-site charge transfer and ordering”, Phys. Rev. B 97, 144102 (2018) (Editors' suggestion) IF: 3.7 中子散射 高壓效應

2017

37. Y. C. Lai, C. H. Du, C. H. Lai, Y. H. Laing, C. W. Wang, K. C. Rule, H. C. Wu, H. D. Yang, W. T. Chen, G. J. Shu, and F. C. Chou, “Magnetic ordering and dielectric relaxation in the double perovskite YBaCuFeO5”, J. Phys.: Condens. Matter 29, 145801 (2017) (Highlights of 2017) IF:2.7 中子散射

38. H. C. Wu, K. D. Chandrasekhar, J. K. Yuan, J. R. Huang, J. -Y. Lin, H. Berger, and H. D. Yang, “Anisotropic spin-flip-induced multiferroic behavior in kagome Cu3Bi(SeO3)2O2Cl”, Phys. Rev. B 95, 125121 (2017) IF: 3.7

39. H. C. Wu, W. J. Tseng, P. Y. Yang, K. D. Chandrasekhar, H. Berger, and H. D. Yang, “Anisotropic pressure effects on the kagome Cu3Bi(SeO3)2O2Cl metamagnet”, J. Phys. D: Appl. Phys. 50, 265002 (2017) IF: 3.2 高壓效應

2016

40. J. Krishna Murthy, K. D. Chandrasekhar, H. C. Wu, H. D. Yang, J. -Y. Lin, and A. Venimadhav, “Antisite disorder driven spontaneous exchange bias effect in La2-xSrxCoMnO6 (0 ≤ x ≤ 1)”, J. Phys.: Condens. Matter 28, 086003 (2016) IF:2.6

41. K. D. Chandrasekhar, H. C. Wu, C. L. Huang, and H. D. Yang, “Effects of Jahn–Teller distortion on the skyrmion stability of (Cu1-xNix)2OSeO3”, J. Mater. Chem. C 4, 5270 (2016) IF:6.4

42. K. D. Chandrasekhar, J. Krishna Murthy, J. -Y. Lin, H. C. Wu, W. J. Tseng, A. Venimadhav, and H. D. Yang, “Magnetostructural coupling and multiferroic properties in the spin-frustrated system Ni1−xZnxCr2O4”, Phys. Rev. B 94, 205143 (2016) IF: 3.7

2015

43. H. C. Wu, K. D. Chandrasekhar, T. Y. Wei, K. J. Hsieh, T. Y. Chen, H. Berger, and H. D. Yang, “Physical pressure and chemical expansion effects on the skyrmion phase in Cu2OSeO3”, J. Phys. D: Appl. Phys. 48, 475001 (2015) IF: 3.2 高壓效應

44. H. C. Wu, T. Y. Wei, K. D. Chandrasekhar, T. Y. Chen, H. Berger, and H. D. Yang, “Unexpected observation of splitting of skyrmion phase in Zn doped Cu2OSeO3”, Sci. Rep. 5, 13579 (2015) IF: 3.9

2014

45. J. Krishna Murthy, K. D. Chandrasekhar, H. C. Wu, H. D. Yang, J. -Y. Lin, and A. Venimadhav, “Metamagnetic behaviour and effect of field cooling on sharp magnetization jumps in multiferroic Y2CoMnO6”, EPL 108,  27013 (2014) IF: 1.8

BOOK CHAPTER:

1. S. Mukherjee, T. H. Kao, H. C. Wu, K. Devi Chandrasekhar, and H. D. Yang, “RE2O3 anoparticles Embedded in SiO2 Glass Matrix—A Colossal Dielectric and Magnetodielectric Response”, Ferroelectric Materials-Synthesis and Characterization, InTech, ISBN 978-953-51-2147-3 (2015)