Heng-Liang Wu (吳恆良) Research Group

Wu Research Group

Center for Condensed Matter Sciences, National Taiwan University

Publication List

47. "Confinement Accelerates Water Oxidation Catalysis: Evidence from in-situ studies.”

K. B. Ibrahim*, T. A. Shifa, M. Bordin, E. Moretti, H.-L. Wu*, A. Vomiero*,

Small Methods, 2023, 7, 2300348.

46. "Mixed-linker strategy for suppressing structural flexibility of MOF membranes for gas separation.”

C.-K. Chang, T.-R. Ko, T.-Y. Lin, Y.-C. Lin, H. J. Yu, J. S. Lee*, Y.-P. Li*, H.-L. Wu*, and D.-Y. Kang*,

Communications Chemistry, 2023, 6, 118.

45. "Doping Shortens the Metal/Metal Distance and Promotes OH Coverage in Non-Noble Acidic Oxygen Evolution Reaction Catalysts.”

N. Wang, P. Ou, R. K. Miao, Y. Chang, Z. Wang, S.-F. Hung, J. Abed, A. Ozden, H.-Y. Chen, H.-L. Wu, J. E. Huang, D. Zhou, W. Ni, L. Fan, Y. Yan, T. Peng, D. Sinton, Y. Liu, H. Liang,* E. H. Sargent*,

Journal of the American Chemical Society, 2023, 145, 7829.

44. "Mechanical Interlocking Enhances the Electrocatalytic Oxygen Reduction Activity and Selectivity of Molecular Copper Complexes.”

X. Mo, Y. Deng, S. K.-M. Lai, X. Gao, H.-L. Yu, K.-H. Low, Z. Guo, H.-L. Wu, H. Y. Au-Yeung*, and E. C. M. Tse*,

Journal of the American Chemical Society, 2023, 145, 11, 6087-6099.

43. "Design of sculptured SnS/g-C3N4 photocatalytic nanostructure for highly efficient and selective CO2 conversion to methane.”

H. A.E. Omr, R. Putikam, M. K. Hussien, A. Sabbah, T.-Y. Lin, K.-H. Chen, H.-L. Wu, S.-P. Feng, M.-C. Lin, H. Lee*,

Applied Catalysis B: Environmental, 2023, 324, 122231.

42. "Hybrid bilayer membranes as platforms for biomimicry and catalysis.”

T. Zeng, R. P. Gautam, D. H. Ko, H.-L. Wu, A. Hosseini*, Y. Li*, C. J. Barile*, E. C. M. Tse*,

Nature Reviews Chemistry, 2022, 6, 862-880.

41. "Intimate interaction of TFSI− anions with MoO3-x oxygen vacancies boost ionic conductivity of cathode-supported solid polymer electrolyte.”

R. Paste, C. Hanmandlu, P.-Y. Su, C.-H. Hou, H.-A. Chen, C.-W. Pao, J.-J. Shyue, K.-H. Chen, H.-L. Wu, H.-C. Lin*, C.W. Chu*,

Chemical Engineering Journal, 2023, 452, 139088.

40. "Selective CO2-to-CO photoreduction over an orthophosphate semiconductor via the direct Z-scheme heterojunction of Ag3PO4 quantum dots decorated on SnS2 nanosheets.”

F.-Y. Fu, C.-C. Fan, M. Qorbani, C.-Y. Huang, P.-C. Kuo, J.-S. Hwang, G.-J. Shu, S.-M. Chang, H.-L. Wu, C.-I Wu*, K.-H. Chen*, L.-C. Chen*,

Sustainable Energy Fuels, 2022, 6, 4418-4428.

39. "Direct 3D Printing of Binder-Free Bimetallic Nanomaterials as Integrated Electrodes for Glycerol Oxidation with High Selectivity for Valuable C3 Products.”

X. Mo, X. Gao, A. V. Gillado, H.-Y. Chen, Y. Chen, Z. Guo, H.-L. Wu*, E. C. M. Tse*,

ACS Nano, 2022, 16, 8, 12202–12213.

38. "Thermogravimetry Combined with Electrospray and Atmospheric Pressure Chemical Ionization Mass Spectrometry for Characterization of Synthetic Polymers.”

H.‐J. Lin, S.‐S. Jhang, J.‐H. Hung, Y.‐S. Zhang, H.‐L. Wu, J. Shiea*,

Rapid Communications in Mass Spectrometry, 2022, 36, 18, e9351.

37. "In situ vibrational spectroscopy and X-ray spectroscopy studies of Li metal battery materials.”

“臨場振動光譜和X光光譜於鋰金屬電池材料之應用"

S.-Y. Yu, H.-L. Yu, H.-L. Wu*,

真空科技, 2022, 35,1, P21-38.

(DOI:10.29808/JVSROC) (https://www.airitilibrary.com/Publication/alDetailedMesh?docid=1017091x-202203-202204250010-202204250010-21-38)

36. “Interconnected microporous and mesoporous carbon derived from pitch for lithium-sulfur batteries.”

Y.-C. Ko, C.-H. Hsu, C.-A. Lo, C.-M. Wu, H.-L. Yu, C.-H. Hsu, H.-P. Lin*, C.-Y. Mou*, H.-L. Wu*,

ACS Sustainable Chemistry & Engineering, 2022, 10, 14, 4462–4472.

35. “Modulating the voltage decay and cationic redox kinetics of Li-rich cathodes via controlling the local electronic structure.”

H.-L. Yu, K. B. Ibrahim, P.-W. Chi, Y.-H. Su, W.-T. Chen, S.-C. Tseng, M.-T. Tang, C.-L. Chen, H.-Y. Tang, C.-W. Pao, K.-H. Chen, M.-K. Wu*, H.-L. Wu*,

Advanced Functional Materials, 2022, 32, 2112394.

34. “Using exciton/trion dynamics to spatially monitor the catalytic activities of MoS2 during hydrogen evolution reaction.”

F.-H. Hsiao+, C.-C. Chung+, C.-H. Chiang+, W.-N. Feng, W.-Y. Tzeng, H.-M. Lin, C.-M. Tu, H.-L. Wu, Y.-H. Wang, W.-Y. Woon, H.-C. Chen, C.-H. Chen, C.-Y. Lo, M.-H. Lai, Y.-M. Chang, L.-S. Lu, W.-H. Chang, C.-W. Chen*, C.-W. Luo*,

ACS Nano, 2022, 16, 3, 4298–4307.

33. “Enhancing the Areal Capacity and Stability of Cu2ZnSnS4 Anode Materials by Carbon Coating: Mechanistic and Structural Studies During Lithiation and Delithiation.”

B. Venugopal, Z. Syum, S.-Y. Yu, A. sabbah, I. Shown, C.-W. Chu, L.-C. Chen, C.-H. Lee*, H.-L. Wu*, and K.-H. Chen*,

ACS Omega, 2022, 7, 11, 9152–9163.

32. “Boosting photocatalytic CO2 reduction in a ZnS/ZnIn2S4 heterostructure through strain-induced direct Z-scheme and a mechanistic study of molecular CO2 interaction thereon.”

A. Sabbah, I. Shown*, M. Qorbani, F.-Y. Fu, T.-Y. Lin, H.-L. Wu, P.-W. Chung, C.-I. Wu, S. R. M. Santiago, J.-L. Shen, K.-H. Chen*, L.-C. Chen*,

Nano Energy, 2022, 93, 106809.

31. “Metal-free four-in-one modification of g-C3N4 for superior photocatalytic CO2 reduction and H2 evolution.”

M. K. Hussien, A. Sabbah, M. Qorbani, M. H. Elsayed, P. Raghunath, T.-Y. Lin, S. Quadir, H.-Y. Wang, H.-L. Wu, D.-L. M. Tzou, M.-C. Lin, P.-W. Chung, H.-H. Chou, L.-C. Chen*, K.-H. Chen*,

Chemical Engineering Journal, 2022, 430, 132853

30. “In situ Vibrational Spectroscopy at Electrochemical Interfaces for the Development of Electrocatalysts and Battery Materials.”

W.-Y. Lin, C.-E. Liu, C.-P. Lee, G.-J. Shu, H.-L. Wu*,

化學 2021, 79 (2), pp 179-189 (DOI： 10.6623/chem.202106_79(2).010)

29. “Copper Zinc Tin Sulfide Anode Materials for Lithium-ion Batteries at Low Temperature”

Z. Syum, T. Billo, A. Sabbah, B. V. Gopal, S.-Y. Yu, F.-Y. Fu, H.-L. Wu*, L.-C. Chen, K.-H. Chen*,

ACS Sustainable Chemistry & Engineering, 2021, 9, 27, 8970-8979.

28. “Regulated Li Electrodeposition Behavior through Mesoporous Silica Thin Film in Anode-free Lithium Metal Batteries.”

C.-A. Lo, C.-C. Chang, Y.-W. Tsai, S.-K. Jiang, B.-J. Hwang, C.-Y. Mou*, H.-L. Wu*,

ACS Applied Energy Materials, 2021, 4, 5, 5132-5142.

27. “Superior lithium-ion storage performance of hierarchical tin disulfide and carbon nanotube-carbon cloth composites”

Z. Syum, B. Venugopal, A. Sabbah, T. Billo, T.-C. Chou, H.-L. Wu*, L.-C. Chen*, K.-H. Chen*,

Journal of Power Sources, 2021, 482, 228923.

26. “On the Activity/Selectivity and Phase Stability of Thermally Grown Copper Oxides during the Electrocatalytic Reduction of CO2”

J.-J. Velasco-Vélez*, C.-H. Chuang, D. Gao, Q. Zhu, D. Ivanov, H. S. Jeon, R. Arrigo, R. V. Mom, E. Stotz, H.-L. Wu, T. E. Jones, B. Roldan Cuenya, A. Knop-Gericke, R. Schlögl,

ACS Catalysis, 2020, 10 (19), 11510-11518.

25. “Controlling the Oxidation State of the Cu Electrode and Reaction Intermediates for Electrochemical CO2 Reduction to Ethylene ” (highly cited paper)

T.-C. Chou, C.-C. Chang, H.-L. Yu, W.-Y. Yu, C.-L. Dong, Juan-Jesús Velasco-Vélez, C.-H. Chuang, L.-C. Chen, J.-F. Lee, J.-M. Chen, H.-L. Wu*,

Journal of the American Chemical Society, 2020, 142 (6), 2857-2867.

24. “Advanced Nanoporous Separators for Stable Lithium Metal Electrodeposition at Ultra-High Current Densities in Liquid Electrolyte”

J. Yang, C.-Y. Wang, C.-C. Wang; K. H. Chen, C.-Y. Mou*, H.-L. Wu*,

Journal of Materials Chemistry A 2020, 8, 5095-5104 (featured on the back cover)

23. “Direct copolymerization of carbon dioxide and 1,4-butanediol enhanced by ceria nanorod catalyst.”

Z.-J. Gong, Y.-R. Li, H.-L. Wu, S. D. Li and W.-Y. Yu*,

Applied Catalysis B: Environmental 2020, 265, 118524

22. “Binder-Free α-MnO2 Nanowires on Carbon Cloth as Cathode Material for Zinc-Ion Batteries.”

R. D. Corpuz, L. M. De Juan-Corpuz, M. T. Nguyen, T. Yonezawa, H.-L. Wu, A. Somwangthanaroj, S. Kheawhom*,

International Journal of Molecular Sciences 2020, 21 (9), 3113

21. “Voltage fade mitigation in the cationic dominant lithium-rich NCM cathode”

P. Chandan, C.-C. Chang, K.-W. Yeh, C.-C. Chiu, D.-Z. Wu, T.-W. Huang, P. M. Wu, P.-W. Chi, W.-F. Hsu, K.-H. Su, Y.-W. Lee, H.S. Chang, M.-J. Wang, H.-L. Wu, H.-Y. Tang* and M.-K. Wu*,

Communications Chemistry 2019, 2 (120), doi:10.1038/s42004-019-0223-3

20. “Physical and electrochemical characterization of a Cu-based oxygen reduction electrocatalyst inside and outside a lipid membrane with controlled proton transfer kinetics”

T. Zeng, H.-L. Wu, Y. Li, E. C.M. Tse*, C. J. Barile*,

Electrochimica Acta 2019, 320 (10), 134611

19. “KSCN-induced Interfacial Dipole in Black TiO2 for Enhanced Photocatalytic CO2 Reduction”

F.-Y. Fu, I. Shown, C.-S. Li, P. Raghunath, T.-Y. Lin, T. Billo, H.-L. Wu, C.-I. Wu, P.-W. Chung, M.-C. Lin, L.-C. Chen*, K.-H. Chen*, ACS Applied Materials & Interfaces 2019, 11 (28), pp 25186–25194

18. “In-situ Spectroscopy Techniques for Rechargeable Lithium-sulfur Batteries ” 臨場光譜技術對鋰硫電池發展的影響

Chun-Yao Wang, Meng-Ping Xiong, Ju-Ming Tsai, Heng-Liang Wu*,

化學 2018, 76 (6), 201-206. (featured on the cover)

17. “A synergistic “cascade” effect in copper zinc tin sulfide nanowalls for highly stable and efficient lithium ion storage”

J.-M. Chiu, T.-C. Chou, D. P. Wong, Y.-R. Lin, C.-A. Shen, S. Hy, B.-J. Hwang, Y. Tai, H.-L. Wu, L.-C. Chen*, K.-H. Chen*,

Nano Energy. 2018, 44, 438-446

Prior to National Taiwan University

16. “The effect of the hydrofluoroether cosolvent structure in acetonitrile-based solvate electrolytes on Li+ solvation structure and Li‒S battery performance”

M. Shin‡, H.-L. Wu‡, B. Narayanan, K. A. See, R. S. Assary, L. Zhu, R. T. Haasch, S. Zhang, Z. Zhang, L. A Curtiss, and A. A. Gewirth, ACS Applied Materials & Interfaces 2017, 9 (45), pp 39357–39370

15. “The Effect of Water-containing Electrolyte on Lithium-Sulfur Batteries”

H.-L. Wu, Richard T. Haasch, Brian P. Perdue, Christopher A. Apblett, and A. A. Gewirth, Journal of Power Sources. 2017, 369, 50-56

14. “Thiol-Based Electrolyte Additives for High-Performance Lithium-Sulfur Batteries”

H.-L. Wu, M. Shin, Y.-M. Liu, K. A. See, and A. A. Gewirth, Nano Energy. 2017, 32, 50-58.

13. “Effect of Hydrofluoroether Cosolvent Addition on Li Solvation in Acetonitrile-Based Solvate Electrolytes and Its Influence on S Reduction in a Li–S Battery”

K. A. See‡, H.-L. Wu‡, K. C. Lau, M. Shin, L. Cheng, M. Balasubramanian, K. G. Gallagher, L. A. Curtiss, and A. A. Gewirth, ACS Applied Materials & Interfaces 2016, 8 (50), pp 34360–34371

12. “Phase transition behaviors of the supported DPPC bilayer investigated by sum frequency generation (SFG) vibrational spectroscopy and atomic force microscopy (AFM)”

H.-L. Wu, Y. Tong, Q. Peng, N. Li and S. Ye, Physical Chemistry Chemical Physics. 2016, 18, 1411-1421. (Selected as the inside front cover)

11. “In Situ EQCM Study Examining Irreversible Changes the Sulfur–Carbon Cathode in Lithium–Sulfur Batteries”

H.-L. Wu, L. A. Huff, J. L. Esbenshade and A. A. Gewirth, ACS Applied Materials & Interfaces 2015, 7 (37), pp 20820–20828

10. “In Situ Raman Spectroscopy of Sulfur Speciation in Lithium–Sulfur Batteries”

H.-L. Wu, L. A. Huff and A. A. Gewirth, ACS Applied Materials & Interfaces 2015, 7 (3), pp 1709–1719

9. “Effect of Functional Group on the Monolayer Structures of Biodegradable Quaternary Ammonium Surfactants”

A. Ge, Q. Peng, H.-L. Wu, H. Liu, Y. Tong, T. Nishida; N. Yoshida, K. Suzuki, T. Sakai, M. Osawa, S. Ye, Langmuir 2013 29, 14411-14420.

8. “Structure and Lateral Interaction in Mixed Monolayers of Dioctadecyldimethyl Ammonium Chloride (DOAC) and Stearyl Alcohol”

A. Ge, H.-L. Wu, T. Darwish, M. James, M. Osawa, and S. Ye, Langmuir 2013 29, 5704-5717.

7. “Enzyme-catalyzed hydrolysis of the supported phospholipid bilayers studied by atomic force microscopy”

H.-L. Wu, L. Yu, Y. Tong, A. Ge, S. Yau, M. Osawa, and S. Ye. Biochimica et Biophysica Acta (BBA) - Biomembranes 2013 1828, 642-651.

6. “Epitaxial Electrodeposition of Cobalt on a Pt(111) Electrode Covered with a Cu(111) Film.”

P.-Y. Yen, S. Chen, H.-L. Tu, H.-L. Wu, S.-L. Yau, and J.-S. Tsay. The Journal of Physical Chemistry C 2011 115, 23802-23808.

5. “In Situ Scanning Tunneling Microscopy Study of 3-Mercaptopropanesulfonate Adsorbed on Pt(111) and Electrodeposition of Copper in 0.1 M KClO4 + 1 mM HCl (pH 3)”

P.-Y. Yen, H.-L. Tu, H.-L. Wu, S. Chen, W. Vogel, S. Yau, and W.-P. Dow. The Journal of Physical Chemistry C 2011 115, 8810-8816.

4. “In Situ STM of 3-Mercaptopropanesulfonate Adsorbed on Pt(111) Electrode and Its Effect on the Electrodeposition of Copper”

H.-L. Tu, P.-Y. Yen, H.-L. Wu, S. Chen, W. Vogel, S. Yau, and W. P. Dow. Journal of The Electrochemical Society 2010 157, D206-D210.

3. “Reflection High-Energy Electron Diffraction Characterization of Cobalt Clusters Electrodeposited on a Au(100) Electrode”

H.-L. Wu, M.-S. Zei, and S.-L. Yau, The Journal of Physical Chemistry C 2010 114, 20062-20067.

2. “In Situ Scanning Tunneling Microscopy Imaging of Mercury Film Electrodeposited on Ir(111) ”

H.-L. Wu, S.-L. Yau, Walter, Vogel.; M.-S. Zei, L.Y. Ou Yang, and K. Itaya. Electrochemistry Communications. 2009 11, 454-456.

1. “Crystalline alloys produced by mercury electrodeposition on Pt(111) electrode at room temperature”

H.-L. Wu, S.-L. Yau, M.-S. Zei, Electrochimica Acta 2008, 53, 5961-5967.