王柏堯 副教授
台灣大學物理學博士
研究領域:低維度奈米磁性物理,新穎光電材料,同步輻射 X-ray 磁性及電子結構顯影
電話: (office):04-7232105 轉 3351
(lab): 低維度奈米物理與磁性實驗室 04-7232105 轉 3397
E-mail : [email protected]
台灣大學物理學博士
研究領域:低維度奈米磁性物理,新穎光電材料,同步輻射 X-ray 磁性及電子結構顯影
電話: (office):04-7232105 轉 3351
(lab): 低維度奈米物理與磁性實驗室 04-7232105 轉 3397
E-mail : [email protected]
著作列表 / Dr. Bo-Yao Wang
1. Hydrogen absorption induced reversible change in magnetic properties of Co-Pd alloy filmsW.-C. Lin*, Bo-Yao Wang*, H.-Y. Huang, C.-J. Tsai, and V. R. Mudinepalli
J. Alloy. Compd. 661, 20 (2016)
2. Crucial role of interlayer distance for antiferromagnet-induced perpendicular magnetic anisotropyBo-Yao Wang*, P.-H. Lin, M.-S. Tsai, C.-W. Shih, M.-J. Lee, C.-W. Huang, N.-Y. Jih, P.-Y. Cheng, and D.-H. Wei
Phys. Rev. B 92, 214435 (2015).
3. Magnetic anisotropic properties of Pd/Co/Pd trilayer films studied by x-ray absorption spectroscopy and magnetic circular dichroismK. Saravanan, C.-H. Kao, Y.-C. Shao, Y.-F. Wang, Bo-Yao Wang*, H. T. Wang, C.-J. Tsai, W.-C. Lin, C.-W. Pao, H.-M. Tsai, L.-Y. Jang, H. J. Lin, J.-F. Lee, and W.-F. Pong+
RSC Advances 5, 19014 (2015).
4. Hydrogen-mediated long-range magnetic ordering in Pd-rich alloy filmW.-C. Lin*, C.-J. Tsai, H.-Y. Huang, Bo-Yao Wang+, V. R. Mudinepalli, and H.-C. Chiu
Appl. Phys. Lett. 106, 012404 (2015).
5. Nano-patterning of magnetic domain: Fe coverage on self-assembled alumina nanostructureC.-B. Wu*, Bo-Yao Wang, W.-C. Lin , Z. Gai , and M.-T. Lin*
Applied Physics Express 8, 093002 (2015).
6.Probing magnetoelastic effects of ultrathin antiferromagnets via magnetic domain imaging in ferromagnetic -antiferromagnetic bilayersBo-Yao Wang*, J.-Y. Hong, N.-Y. Jih, K.-H. Ou Yang, L.-R. Chen, H.-J. Lin, Y.-L. Chan, D.-H. Wei, and M.-T. Lin+
Phys. Rev. B 90, 224424 (2014).
7. Polarized X‑ray Absorption Spectroscopy Observation of Electronic and Structural Changes of Chemical Vapor Deposition Graphene in Contact with WaterJ. J. Velasco-Velez, C. H. Wu, Bo-Yao Wang, Y. Sun, Y. Zhang, J.-H. Guo, and M. Salmeron*
J. Phys. Chem. C 118, 25456 (2014).
8. Interfacial spectroscopic characterization of organic/ferromagnet hetero-junction of 3,4,9,10 –perylene -teracarboxylic dianhydride-based organic spin valvesJ.-Y. Hong, K.-H. Ou Yang, Bo-Yao Wang, K.-S. Li, H.-W. Shiu, C.-H. Chen, Y.-L. Chan, D.-H. Wei, F.-H. Chang, H.-J. Lin, W.-C. Chiang*, and M.-T. Lin+
Appl. Phys. Lett. 104, 083301 (2014).
9. How antiferromagnetism drives the magnetization of a ferromagnetic thin film to align out-of-planeBo-Yao Wang, J.-Y. Hong, K.-H. Ou Yang, Y.-L. Chan, D.-H. Wei, H.-J. Lin, and M.-T. Lin*
Phys. Rev. Lett. 110, 117203 (2013).
10. Enhanced perpendicular magnetic anisotropy in Fe/Mn bilayers by incorporating ultrathin ferromagnetic underlayer through magnetic proximity effect.Bo-Yao Wang, C.-C. Chiu, W.-C. Lin*, and M.-T. Lin*
Appl. Phys. Lett. 103, 042407 (2013).
11. Effect of geometry on the magnetic properties of CoFe2O4-PbTiO3 multiferroic compositesBo-Yao Wang, H.-T. Wang, S. B. Singh, C.-H. Chuang, Y. -C. Shao, Y.- F. Wang, C.-Y. Tsai, C.-W. Pao, H.-M. Tsai, H.-J. Lin, W.-F. Hsieh, and W.-F. Pong*
RSC Advances 3, 7884 (2013).
12. Hydrogenation induced reversible modulation of perpendicular magnetic coercivity in Pd/Co/Pd films. W.-C. Lin*, C.-J. Tsai, Bo-Yao Wang, C.-H. Kao, and W.-F. Pong
Appl. Phys. Lett. 102, 252404 (2013).
13. Valence band electronic structure of Nd1−xYxMnO3 using X-rayabsorption, photoemission and GGA + U calculations.P. Balasubramanian*, H. S. Nair, H. M. Tsai, S. Bhattacharjee, M. T. Liu, Ruchika Yadav, J. W. Chiou, H. J. Ling, T. W. Pi, M. H. Tsaih, S. Elizabeth, C. W. Pao, Bo-Yao Wang, C. H. Chuang, and W. F. Pong
Journal of Electron Spectroscopy and Related Phenomena, 189, 51-55 (2013).
14. Band gap engineering of chemical vapor deposited graphene by in-situ BN dopingC.-K. Chang, S. Kataria, C.-C. Kuo, A. Ganguly, Bo-Yao Wang, J.-Y. Hwang, K.-J. Huang, W.-H. Yang, S.-B. Wang, C.-H. Chuang, M. Chen, C.-I Huang, W.-F. Pong, K.-J. Song, S.-J. Chang, J.-H. Guo, Y. Tai, M. sujimoto, S. Isoda, C.-W. Chen, L.-C. Chen*, and K.-H. Chen+
ACS nano 7, 1333 (2013).
15. Flipping magnetization induced by noncollinear ferromagnetic-antiferromagnetic exchange couplingBo-Yao Wang, C.-H. Chuang, S.-S. Wong, J.-J. Chiou, W.-C. Lin, Y.-L. Chan, D.-H. Wei, and M.-T. Lin*
Phys. Rev. B 85, 094412 (2012).
16. Extending the control of antiferromagnetic-ferromagnetic exchange coupling on perpendicular magnetization into the soft magnetic region.N.-Y. Jih, Bo-Yao Wang, Y.-L. Chan, D.-H. Wei, and M.-T. Lin*
Applied Physics Express 5, 063008 (2012).
17. Uniaxial magnetic anisotropy in Pd/Fe bilayers on Al2O3(0001) induced by oblique deposition.C.-S.Chi, Bo-Yao Wang, W.-F. Pong, T.-Y. Ho, C.-J. Tsai, F.-Y. Lo, M.-Y. Chern, and W.-C. Lin*
J. Appl. Phys. 111, 123918 (2012).
18. Layered Antiferromagnetic Spin Structures of Expanded fct-Mn(001) Resolved by Spin-Polarized Scanning Tunneling Microscopy.P.-J. Hsu, C.-I Lu, Y.-H. Chu, Bo-Yao Wang, C.-B. Wu, L.-J. Chen, S.-S. Wong, and M.-T. Lin*
Phys. Rev. B 85, 174434 (2012).
19. Nitrogen-functionalized Graphene Nano-flakes (GNFs:N): Tunable Photoluminescence and Electronic Structures.J.-W. Chiou*, S.-C. Ray+, S. I. Peng, C.-H. Chuang, Bo-Yao Wang, H.-M. Tsai, C.-W. Pao, H.-J. Lin, Y.-C. Shao, Y.-F. Wang, S.-C. Chen, W.-F. Pong++, Y.-C. Yeh, C.-W. Chen, L.-C. Chen, K.-H. Chen, M.-H. Tsai, A. Kumar, A. Ganguly, P. Papakonstantinou, H. Yamane, N. Kosugi, T. Regier, L. Liu, and T.-K. Sham
J. Phys. Chem. C 116, 16251 (2012).
20. Correlation between the electronic structure and p-type conductivity of Cr-deficient CuCr1-xO2 (x = 0.0-0.1) using X-ray absorption and photoemission spectroscopyShashi B. Singh, L.-T. Yang, Y.-F. Wang, Y.-C. Shao, C.-W. Chiang, J.-W. Chiou, K.-T. Lin*, S.-C. Chen, Bo-Yao Wang, C.-H. Chuang, D.-C. Ling*, W.-F. Pong+, M.-H. Tsai, H.-M. Tsai, C.-W. Pao, H.-W. Shiu, C.-H. Chen, H.-J. Lin, J.-F. Lee, H. Yamane, and N. Kosugi
Phys. Rev. B 86, 241103(R) (2012).
21. Driving magnetization perpendicular by antiferromagnetic-ferromagnetic exchange coupling. Bo-Yao Wang, N.-Y. Jih, W.-C. Lin, C.-H. Chuang, P.-J. Hsu, C.-W. Peng, Y.-C. Yeh, Y.-L. Chan, W.-C. Chiang, D.-H. Wei, and M.-T. Lin*
Phys. Rev. B 83, 104417 (2011).
22. Enhanced exchange bias coupling in Fe/FexMn1-x bilayer by reducing vertical lattice constants.W.-C. Lin, Bo-Yao Wang, T.-Y. Chen, L.-C. Lin, Y.-W. Liao, W. Pen, N.-Y. Jih, K.-J. Song, and M.-T. Lin*
Appl. Phys. Lett. 90, 052502 (2007).
23. Comparison on the crystalline structure, morphology and magnetic properties of γ-phase Mn/Cu3Au(100) ultrathin films by varying the growth temperature.W.-C. Lin, T.-Y. Chen, L.-C. Lin, Bo-Yao Wang, Y.-W. Liao, K.-J. Song, and M.-T. Lin*
Phys. Rev. B 75, 054419 (2007).
24. Depth-dependent fct to fcc strain relaxation in CoxNi1-x/Cu3Au(100) alloy filmBo-Yao Wang, W.-C. Lin, Y.-W. Liao, K.-J. Song, and M.-T. Lin*
Surf. Sci. 600, 4517 (2006).
25. Alloying and strain relaxation effects on spin-reorientation transitions in CoxNi1-x/Cu3Au(100) ultrathin filmsW.-C. Lin, Bo-Yao Wang, Y.-W. Liao, K.-J. Song*, and M.-T. Lin+
Phys. Rev. B 71, 184413 (2005).
26. Growth, structure and magnetism of γ-phase Mn ultrathin Films on Cu3Au(100) W.-C. Lin, L.-C. Lin, T.-Y. Chen, Bo-Yao Wang, K.-J. Song, and M.-T. Lin*
J. Appl. Phys. 97, 10K112 (2005).
1. Hydrogen absorption induced reversible change in magnetic properties of Co-Pd alloy filmsW.-C. Lin*, Bo-Yao Wang*, H.-Y. Huang, C.-J. Tsai, and V. R. Mudinepalli
J. Alloy. Compd. 661, 20 (2016)
2. Crucial role of interlayer distance for antiferromagnet-induced perpendicular magnetic anisotropyBo-Yao Wang*, P.-H. Lin, M.-S. Tsai, C.-W. Shih, M.-J. Lee, C.-W. Huang, N.-Y. Jih, P.-Y. Cheng, and D.-H. Wei
Phys. Rev. B 92, 214435 (2015).
3. Magnetic anisotropic properties of Pd/Co/Pd trilayer films studied by x-ray absorption spectroscopy and magnetic circular dichroismK. Saravanan, C.-H. Kao, Y.-C. Shao, Y.-F. Wang, Bo-Yao Wang*, H. T. Wang, C.-J. Tsai, W.-C. Lin, C.-W. Pao, H.-M. Tsai, L.-Y. Jang, H. J. Lin, J.-F. Lee, and W.-F. Pong+
RSC Advances 5, 19014 (2015).
4. Hydrogen-mediated long-range magnetic ordering in Pd-rich alloy filmW.-C. Lin*, C.-J. Tsai, H.-Y. Huang, Bo-Yao Wang+, V. R. Mudinepalli, and H.-C. Chiu
Appl. Phys. Lett. 106, 012404 (2015).
5. Nano-patterning of magnetic domain: Fe coverage on self-assembled alumina nanostructureC.-B. Wu*, Bo-Yao Wang, W.-C. Lin , Z. Gai , and M.-T. Lin*
Applied Physics Express 8, 093002 (2015).
6.Probing magnetoelastic effects of ultrathin antiferromagnets via magnetic domain imaging in ferromagnetic -antiferromagnetic bilayersBo-Yao Wang*, J.-Y. Hong, N.-Y. Jih, K.-H. Ou Yang, L.-R. Chen, H.-J. Lin, Y.-L. Chan, D.-H. Wei, and M.-T. Lin+
Phys. Rev. B 90, 224424 (2014).
7. Polarized X‑ray Absorption Spectroscopy Observation of Electronic and Structural Changes of Chemical Vapor Deposition Graphene in Contact with WaterJ. J. Velasco-Velez, C. H. Wu, Bo-Yao Wang, Y. Sun, Y. Zhang, J.-H. Guo, and M. Salmeron*
J. Phys. Chem. C 118, 25456 (2014).
8. Interfacial spectroscopic characterization of organic/ferromagnet hetero-junction of 3,4,9,10 –perylene -teracarboxylic dianhydride-based organic spin valvesJ.-Y. Hong, K.-H. Ou Yang, Bo-Yao Wang, K.-S. Li, H.-W. Shiu, C.-H. Chen, Y.-L. Chan, D.-H. Wei, F.-H. Chang, H.-J. Lin, W.-C. Chiang*, and M.-T. Lin+
Appl. Phys. Lett. 104, 083301 (2014).
9. How antiferromagnetism drives the magnetization of a ferromagnetic thin film to align out-of-planeBo-Yao Wang, J.-Y. Hong, K.-H. Ou Yang, Y.-L. Chan, D.-H. Wei, H.-J. Lin, and M.-T. Lin*
Phys. Rev. Lett. 110, 117203 (2013).
10. Enhanced perpendicular magnetic anisotropy in Fe/Mn bilayers by incorporating ultrathin ferromagnetic underlayer through magnetic proximity effect.Bo-Yao Wang, C.-C. Chiu, W.-C. Lin*, and M.-T. Lin*
Appl. Phys. Lett. 103, 042407 (2013).
11. Effect of geometry on the magnetic properties of CoFe2O4-PbTiO3 multiferroic compositesBo-Yao Wang, H.-T. Wang, S. B. Singh, C.-H. Chuang, Y. -C. Shao, Y.- F. Wang, C.-Y. Tsai, C.-W. Pao, H.-M. Tsai, H.-J. Lin, W.-F. Hsieh, and W.-F. Pong*
RSC Advances 3, 7884 (2013).
12. Hydrogenation induced reversible modulation of perpendicular magnetic coercivity in Pd/Co/Pd films. W.-C. Lin*, C.-J. Tsai, Bo-Yao Wang, C.-H. Kao, and W.-F. Pong
Appl. Phys. Lett. 102, 252404 (2013).
13. Valence band electronic structure of Nd1−xYxMnO3 using X-rayabsorption, photoemission and GGA + U calculations.P. Balasubramanian*, H. S. Nair, H. M. Tsai, S. Bhattacharjee, M. T. Liu, Ruchika Yadav, J. W. Chiou, H. J. Ling, T. W. Pi, M. H. Tsaih, S. Elizabeth, C. W. Pao, Bo-Yao Wang, C. H. Chuang, and W. F. Pong
Journal of Electron Spectroscopy and Related Phenomena, 189, 51-55 (2013).
14. Band gap engineering of chemical vapor deposited graphene by in-situ BN dopingC.-K. Chang, S. Kataria, C.-C. Kuo, A. Ganguly, Bo-Yao Wang, J.-Y. Hwang, K.-J. Huang, W.-H. Yang, S.-B. Wang, C.-H. Chuang, M. Chen, C.-I Huang, W.-F. Pong, K.-J. Song, S.-J. Chang, J.-H. Guo, Y. Tai, M. sujimoto, S. Isoda, C.-W. Chen, L.-C. Chen*, and K.-H. Chen+
ACS nano 7, 1333 (2013).
15. Flipping magnetization induced by noncollinear ferromagnetic-antiferromagnetic exchange couplingBo-Yao Wang, C.-H. Chuang, S.-S. Wong, J.-J. Chiou, W.-C. Lin, Y.-L. Chan, D.-H. Wei, and M.-T. Lin*
Phys. Rev. B 85, 094412 (2012).
16. Extending the control of antiferromagnetic-ferromagnetic exchange coupling on perpendicular magnetization into the soft magnetic region.N.-Y. Jih, Bo-Yao Wang, Y.-L. Chan, D.-H. Wei, and M.-T. Lin*
Applied Physics Express 5, 063008 (2012).
17. Uniaxial magnetic anisotropy in Pd/Fe bilayers on Al2O3(0001) induced by oblique deposition.C.-S.Chi, Bo-Yao Wang, W.-F. Pong, T.-Y. Ho, C.-J. Tsai, F.-Y. Lo, M.-Y. Chern, and W.-C. Lin*
J. Appl. Phys. 111, 123918 (2012).
18. Layered Antiferromagnetic Spin Structures of Expanded fct-Mn(001) Resolved by Spin-Polarized Scanning Tunneling Microscopy.P.-J. Hsu, C.-I Lu, Y.-H. Chu, Bo-Yao Wang, C.-B. Wu, L.-J. Chen, S.-S. Wong, and M.-T. Lin*
Phys. Rev. B 85, 174434 (2012).
19. Nitrogen-functionalized Graphene Nano-flakes (GNFs:N): Tunable Photoluminescence and Electronic Structures.J.-W. Chiou*, S.-C. Ray+, S. I. Peng, C.-H. Chuang, Bo-Yao Wang, H.-M. Tsai, C.-W. Pao, H.-J. Lin, Y.-C. Shao, Y.-F. Wang, S.-C. Chen, W.-F. Pong++, Y.-C. Yeh, C.-W. Chen, L.-C. Chen, K.-H. Chen, M.-H. Tsai, A. Kumar, A. Ganguly, P. Papakonstantinou, H. Yamane, N. Kosugi, T. Regier, L. Liu, and T.-K. Sham
J. Phys. Chem. C 116, 16251 (2012).
20. Correlation between the electronic structure and p-type conductivity of Cr-deficient CuCr1-xO2 (x = 0.0-0.1) using X-ray absorption and photoemission spectroscopyShashi B. Singh, L.-T. Yang, Y.-F. Wang, Y.-C. Shao, C.-W. Chiang, J.-W. Chiou, K.-T. Lin*, S.-C. Chen, Bo-Yao Wang, C.-H. Chuang, D.-C. Ling*, W.-F. Pong+, M.-H. Tsai, H.-M. Tsai, C.-W. Pao, H.-W. Shiu, C.-H. Chen, H.-J. Lin, J.-F. Lee, H. Yamane, and N. Kosugi
Phys. Rev. B 86, 241103(R) (2012).
21. Driving magnetization perpendicular by antiferromagnetic-ferromagnetic exchange coupling. Bo-Yao Wang, N.-Y. Jih, W.-C. Lin, C.-H. Chuang, P.-J. Hsu, C.-W. Peng, Y.-C. Yeh, Y.-L. Chan, W.-C. Chiang, D.-H. Wei, and M.-T. Lin*
Phys. Rev. B 83, 104417 (2011).
22. Enhanced exchange bias coupling in Fe/FexMn1-x bilayer by reducing vertical lattice constants.W.-C. Lin, Bo-Yao Wang, T.-Y. Chen, L.-C. Lin, Y.-W. Liao, W. Pen, N.-Y. Jih, K.-J. Song, and M.-T. Lin*
Appl. Phys. Lett. 90, 052502 (2007).
23. Comparison on the crystalline structure, morphology and magnetic properties of γ-phase Mn/Cu3Au(100) ultrathin films by varying the growth temperature.W.-C. Lin, T.-Y. Chen, L.-C. Lin, Bo-Yao Wang, Y.-W. Liao, K.-J. Song, and M.-T. Lin*
Phys. Rev. B 75, 054419 (2007).
24. Depth-dependent fct to fcc strain relaxation in CoxNi1-x/Cu3Au(100) alloy filmBo-Yao Wang, W.-C. Lin, Y.-W. Liao, K.-J. Song, and M.-T. Lin*
Surf. Sci. 600, 4517 (2006).
25. Alloying and strain relaxation effects on spin-reorientation transitions in CoxNi1-x/Cu3Au(100) ultrathin filmsW.-C. Lin, Bo-Yao Wang, Y.-W. Liao, K.-J. Song*, and M.-T. Lin+
Phys. Rev. B 71, 184413 (2005).
26. Growth, structure and magnetism of γ-phase Mn ultrathin Films on Cu3Au(100) W.-C. Lin, L.-C. Lin, T.-Y. Chen, Bo-Yao Wang, K.-J. Song, and M.-T. Lin*
J. Appl. Phys. 97, 10K112 (2005).
國立彰化師範大學 http://www.ncue.edu.tw/front/bin/home.phtml
國立彰化師範大學物理系 http://www.phys.ncue.edu.tw/
進德校區‧地址:500彰化市進德路一號
1. Jin-De Campus, Address: No.1, Jin-De Road, Changhua 500, Taiwan
國立彰化師範大學物理系 http://www.phys.ncue.edu.tw/
進德校區‧地址:500彰化市進德路一號
1. Jin-De Campus, Address: No.1, Jin-De Road, Changhua 500, Taiwan