劉靜萍 教授

通訊處

辦公室電話: (02)2905-3575
實驗室電話: (02)2905-2478

E-mail

129723@mail.fju.edu.tw

網頁連結

 

學經歷

國立清華大學 博士 (2000.8~2005.1)

國立清華大學 碩士 (1996.8~1998.6)

國立清華大學 學士 (1992.8~1996.6)

 

輔仁大學化學系 教授 (2020.8~)

輔仁大學化學系 助理教授 (2015.8~2020.7)

國家衛生研究院 生醫工程&奈米醫學所 博士後研究 (2008.8~2015.7)

中央研究院 化學所 博士後研究 (2007.10~2008.7)

Department of Chemistry, Purdue University USA, visiting scholar (2006.2~2007.8)

國立交通大學 應化所 博士後研究 (2005.3~2005.12)

學術專長

物理化學、光譜學、奈米生醫應用

研究領域

1.   奈米材料的類酶活性研究

2.   奈米材料的催化反應動力學研究

3.   奈米生醫應用 

代表著作

1.         Z.-W. Chen, T.-H. Hsieh, C.-P. Liu,* “Production of carbon dots by pulsed laser ablation: Precursors and photo-oxidase properties.”, J. Chin. Chem. Soc. 69, 193-199 (2022).

2.         Y.-S. Chen, Z.-W. Chen, Y.-W. Yuan, K.-C. Chen, C.-P. Liu,* “Fluorescence quenchers manipulate the peroxidase-like activity of gold-based nanomaterials,” ACS Omega 5, 24487 (2020).

3.         P.-T. Huang,* Y.-N. Chen, K.-C. Chen, S.-H. Wu, C.-P. Liu,* “Confinements of silver nanoparticles in polystyrenes through molecular entanglements and their application for catalytic reduction of 4-nitrophenol,” J. Mater. Chem. A 7, 20919-20925 (2019).

4.         C.-P. Liu,* K.-C. Chen, C.-F. Su, P.-Y. Yu, P.-W. Lee, “Revealing the active site of gold nanoparticles for the peroxidase-like activity: The determination of surface accessibility,” Catalysts 9, 517 (2019).

5.         S.-P. Sun, C.-P. Liu, I.-P. Huang, C.-H. Chu, M.-F. Chung, S.-H. Cheng, S.-Y. Lin, and L.-W. Lo,* “Tailoring enzyme-like activities of gold nanoclusters by polymeric tertiary amines for protecting neurons against oxidative stress,” Nano Futures 1, 035005 (2017). (co-first author)

6.         C.-P. Liu,* T.-H. Wu, C.-Y. Liu, K.-C. Chen, Y.-X. Chen, G.-S. Chen, and S.-Y. Lin,* “Self-supplying O2 through the catalase-like activities of gold nanoclusters for photodynamic therapy against hypoxic cancer cells,” Small 13, 1700278 (2017).

7.         C.-P. Liu, T.-H. Wu, Y.-L. Lin, C.-Y. Liu, S. Wang, and S.-Y. Lin,* “Tailoring enzyme-like activities of gold nanoclusters by polymeric tertiary amines for protecting neurons against oxidative stress,” Small 12, 4127 (2016).

Postdoctoral work

8.         C.-P. Liu, T.-H. Wu, C.-Y. Liu, and S.-Y. Lin,* “Interactions of nitroxide radicals with Au8-clusters: A fluorescnet nanosensor for intracellular imaging of ascorbic acid,” J. Mater. Chem. B 3, 191 (2015).

9.         C.-P. Liu, T.-H. Wu, C.-Y. Liu, and S.-Y. Lin,* “Live-cell imaging of biothiols via thiol/disulfide exchange to trigger the photoinduced electron transfer of gold-nanodot sensor,” Anal. Chim. Acta 849, 57 (2014).

10.     C.-P. Liu, F.-S. Lin, S.-Y. Tseng, C.-W. Luo, C.-H. Chen, J.-K. Chen, F.-G. Tseng, Y.-K. Hwu, L.-W. Lo, C.-S. Yang, and S.-Y. Lin,* “In-situ formation and assembly of gold nanoparticles by gum Arabic as efficient photothermal agent for killing cancer cells,” Macromol. Biosci. 13, 1314 (2013).

11.     T.-H. Wu, C.-P. Liu, C.-T. Chien, and S.-Y. Lin,* “Hydroxylamine derived from the breakdown of PAMAM dendrimers as the fluorescent probe for intracellular hypochlorite recognition,” Chem. Eur. J 19, 11672 (2013).

12.     N.-T. Chen, S.-H. Cheng, C.-P. Liu, J. S. Souris, C.-T. Chen, C.-Y. Mou, and L.-W. Lo,* “Recent advances in nanoparticle-based Förster resonance energy transfer for biosensing, molecular imaging, and drug release profiling,” Int. J. Mol. Sci 13, 16598 (2012), (Invited Review)

13.     C.-P. Liu, S.-H. Cheng, N.-T. Chen, and L.-W. Lo,* “Energy transfer based luminescence nanocrystals in biological applications,” J. Nanomaterials 706134 (2012), (Invited Review)

14.     S.-Y. Lin,* W.-T. Haw, Y.-C. Jao, C.-P. Liu, H.-Y. Lin, L.-W. Lo, and C.-S. Yang “Unravelling the Photo- luminescence Puzzle of PAMAM Dendrimers,” Chem. Eur. J. 17, 7158 (2011).

15.     C. W. Müller, J. J. Newby, C.-P. Liu, C. P. Rodrigo, and T. S. Zwier,* “Duschinsky mixing between four non-totally symmetric normal coordinates in the S1–S0 vibronic structure of (E)-phenylvinylacetylene” Phys. Chem. Chem. Phys. 12, 2331 (2010).

16.     J. J. Newby, C.-P. Liu, C. W. Müller, W. H. James III, E. G. Buchanan, H. D. Lee, and T. S. Zwier,* “Spectroscopy and Photophysics of Structural Isomers of Naphthalene: Z-Phenylvinylacetylene” J. Phys. Chem. A 114, 3190 (2010).

17.     J. J. Newby, C. W. Müller, C.-P. Liu, and T. S. Zwier,* “Probing E/Z isomerization on the C10H8 potential energy surface with ultraviolet population transfer spectroscopy” J. Am. Chem. Soc. 132, 1611 (2010).

18.     C.-P. Liu, M.-T. Wey, C.-C. Chang, and L.-S. Kan,* “Direct observation of single molecule conformational change of tight-turn paperclip DNA triplex in solution.” Appl. Biochem. Biotechnol. 159, 261 (2009).

19.     J. J. Newby, C. W. Müller, C.-P. Liu, and T. S. Zwier,* “Jet-cooled vibronic spectroscopy and asymmetric torsional potentials of phenylcyclopentene” Phys. Chem. Chem. Phys. 11, 8330 (2009).

20.     J. J. Newby, C.-P. Liu, C. W. Müller, and T. S. Zwier,* “Jet-cooled vibronic spectroscopy of potential intermediates along the pathway to PAH: Phenylcyclopenta-1,3-diene” Phys. Chem. Chem. Phys. 11, 8316 (2009).

21.     C.-P. Liu, J. J. Newby, C. W. Müller, and T. S. Ziwer,* “Spectroscopic characterization of structural isomers of naphthalene: (E)- and (Z)-phenylvinylacetylene.” J. Phys. Chem. A 112, 9454 (2008).

22.     J. J. Newby, J. A. Stearns, C.-P. Liu, and T. S. Ziwer,* “Photochemical and discharge-driven pathways to aromatic products from 1,3-butadiene.” J. Phys. Chem. A 111, 10914 (2007).

23.     C.-P. Liu, N. L. Elliott, C. M. Western,* Y.-P. Lee, and R. Colin, “The B3S- state of the SO radical.” J. Mol. Spectrosc. 238, 213 (2006).

24.     C.-P. Liu, S. A. Reid, and Y.-P. Lee,* “Two-color resonant four-wave mixing spectroscopy of highly predissociative levels in the A 2A1 state of CH3S.” J. Chem. Phys. 122, 124313 (2005).

25.     C.-P. Liu, Y. Matsuda, and Y.-P. Lee,* “Highly predissociative levels of CH3S (A 2A1) detected with degenerate four-wave mixing.” J. Chem. Phys. 119, 12335 (2003).

26.     S. Wang, Y. Shi, Z. J. Jakubek,* M. Barnett, B. Simard, K. Muller-Dethlefs, C.-P. Liu, and Y.-P. Lee, “Nonresonant two-photon mass analyzed threshold ionization and zero kinetic energy photoelectron investigation of the X 2B1 ground state of CH2CO+ and CD2CO+.” J. Chem. Phys. 117, 6546 (2002).

27.     B.-M. Cheng,* E. P. Chew, C.-P. Liu, M. Bahou, Lee, Y.-P. Lee, Y. L. Yung, and M. F. Gerstell, “Photo-induced fractionation of water isotopomers in the Martian atmosphere.” Geophys. Res. Lett. 26, 3657 (1999).

28.     B.-M. Cheng,* E. P. Chew, C.-P. Liu, J.-S. Yu, and C.-H. Yu, “Photoionization- efficiency spectrum and ionization energy of C2H5SCl.” J. Chem. Phys. 111, 10093 (1999).

29.     B.-M. Cheng,* E. P. Chew, C.-P. Liu, J.-S. Yu, and C.-H. Yu, “Photoionization spectrum and ionization energy of CH3SCl.” J. Chem. Phys. 110, 4757 (1999).

30.     L.-H. Lai, C.-P. Liu, and Y.-P. Lee,* “Laser photolysis of OClO in solid Ne, Ar, and Kr. II. Site selectivity, mode specificity, and effects of matrix hosts.” J. Chem. Phys. 109, 988 (1998).

31.     C.-P. Liu, L.-H. Lai, Y.-Y. Lee, S.-C. Hung, and Y.-P. Lee,* “Absorption and fluorescence of OClO A 2A2 X 2B1 in solid Ne, Ar, and Kr. I. Vibrationally unrelaxed A®X emission.” J. Chem. Phys. 109, 978 (1998).

32.     W.-C. Hung, C.-D. Ho, C.-P. Liu, and Y.-P. Lee,* “Laser-Induced Fluorescence and Phosphorescence of C60 Isolated in Solid Ne.” J. Chem. Phys. 100, 3927 (1996)