Publications

24. Navigating Solvent Chemistry and Microstructures: Towards Mechanically-enhanced Ceramic-rich Composite Electrolytes

Lingzi Sang*, Mauricio Ponga, Michael Fleischauer, and Runqi Wu

Phys. Chem. C. 2024, 128, 41, 17240-17251

23. A Cellulose-Encapsulated Composite Electrolyte Design: Towards Chemically and Mechanically Enhanced Solid-sodium Batteries

Shu Dong, Geng Xie, Shihong Xu, Xuehai Tan, Madhusudan Chaudhary, Yue Zhang, Runqi Wu, Fuwei Wen, Cagri Ayranci, Vladimir K. Michaelis, Amanda Quirk, Scott M. Rosendahl, Jian Liu, Michael Fleischauer, and Lingzi Sang*

ACS Nano 2024, 18, 25, 16285-16296

22. Dual-component Interlayer Enables Uniform Lithium Deposition and Dendrite Suppression for Solid-State Batteries

Xiang You, Ning Chen, Geng Xie, Shihong Xu, Sayed Youssef Sayed, and Lingzi Sang*

ACS Appl. Mater. Interfaces 2024, 16, 27, 35761-35770

21. A Facile Chemical Reduction Approach of Li-Sn Modified Li Anode for Dendrite Suppression

Amardeep Amardeep, Donald J. Freschi, Lingzi Sang*, Jian Liu*

Adv. Energy Sustainability Res. 2024, 2400035

20. Mechanochemistry in Sodium Thioantimonate Solid Electrolytes: Effects on Structure, Morphology, and Electrochemical Performance

Fuwei Wen, Geng Xie, Qichao Wu, Madhusudan Chaudhary, Xiang You, Ning Chen, Vladimir Michaelis, Arthur Mar, and Lingzi Sang*

ACS Appl. Mater. Interfaces 2023, 15, 33, 40070-40079

19. Degradation at the Na3SbS4/Anode Interface in an Operating All-Solid-State Sodium Battery

Geng Xie, Minh Tang Duc Hoang, Shihong Xu, Arthur Mar, Alex Brown, Lingzi Sang*

ACS Appl. Mater. Interfaces 2022, 14, 43, 48705-48714

18. Histidine ligated iron-sulfur peptides

Luca Valer, Daniele Rossetto, Taylor Parkkila, Lorenzo Sebastianelli, Graziano Guella, Amber Hendricks, James Cowan, Lingzi Sang, Sheref S. Mansy*

Chembiochem. 2022, Jul 19;23(14):e202200202

17. Editorial Notes: In celebration of the retirement of Professors Jed Harrison, Charles Lucy, and Richard McCreery

Lingzi Sang, and Ran Zhao

Can. J. Chem. 2022, 100, 7

16. Characterizations of the Dynamic Interfaces in AllSolid Lithium Batteries

Lingzi Sang*, Nicholas Kissoon, Fuwei Wen

J. Power Sources 2021, 506, 229871

15. In-situ strain measurement in solid-state Li-ion batteries

Behrad Koohbor, Lingzi Sang, Ömer Ö. Çapraz, Andrew A. Gewirth, Nancy R. Sottos*

Electrochem. Soc. 2021, 168, 010516

14. Rapid access to (cycloalkyl)tellurophene oligomer mixtures and the first poly(3-aryltellurophene)

Bruno T. Luppi, Robert McDonald, Michael J. Ferguson, Lingzi Sang* and Eric Rivard*

Chem. Commun. 2019, 55, 14218-14221

Prior to University of Alberta

13. Penetration and Reaction Depths of Vapor Deposited Ag, Mg, Al and Ca on Oligothiophene Thin Films

Lingzi Sang and Jeanne E. Pemberton

Chem. Mater. 2019, 31, 17, 6908-6917

12. Reversible Conversion Reactions and Small First Cycle Irreversible Capacity Loss in Metal Sulfide‐Based Electrodes Enabled by Solid Electrolytes

Sanghyeon Kim, Jeawon Choi, Seong-Min Bak, Lingzi Sang, Qun Li, Arghya Patra, Paul V. Braun

Adv. Funct. Mater. 2019, 29, 1901719

11. Chemistry at the Interface of α-Sexithiophene and VaporDeposited Ag, Al, Mg, and Ca: A Molecular View

Lingzi Sang and Jeanne E. Pemberton

Phys. Chem. C.2019, 123, 31, 18877-18888

10. High Energy Density CNT/NaI Composite Cathodes for Sodium‐Ion Batteries

Sanghyeon Kim, Xiangming Li, Lingzi Sang, Young Soo Yun, Ralph G. Nuzzo, Andrew A. Gewirth, Paul V. Braun

Adv. Mater. Interfaces 2018, 5, 1801342

9. Understanding the Effect of Interlayers at the Thiophosphate Solid Electrolyte/Lithium Interface for All-Solid-State Li Batteries

Lingzi Sang, Kimberly L. Bassett, Fernando C. Castro, Matthias J. Young, Lin Chen, Richard T. Haasch, Jeffery W. Elam, Vinayak P. Dravid, Ralph Nuzzo, Andrew Gewirth

Chem. Mater. 2018, 30, 24, 8747-8756

8. Evolution at the Solid Electrolyte/Gold Electrode Interface during Lithium Deposition and Stripping

Lingzi Sang, Richard T. Haasch, Andrew A. Gewirth and Ralph G. Nuzzo

Chem. Mater. 2017, 29, 7, 3029-3037

7. Effect of time and deposition method on quality of phosphonic acid modifier self-assembled monolayers on indium zinc oxide

Lingzi Sang, Kristina M. Knesting, Amuradha Bulusu, Ajaya K. Sigdel, Anthony J. Giordano, Seth R. Marder, Joseph J. Berry, Samuel Graham, David S. Ginger, Jeanne E. Pemberton

Applied Surface Science 2016, 389, 190-198

6. Understanding the Reaction Chemistry of 2,2′:5′,2′′-Terthiophene Films with Vapor Deposited Ag, Al and Ca using Raman spectroscopy

Lingzi Sang, Dallas L. Matz and Jeanne E. Pemberton

Phys. Chem. C. 2015, 119, 43, 24290-24298

5. PM-IRRAS Investigation of Molecular Orientation of Model Phosphonic Acid Self-Assembled Monolayers on Indium Zinc Oxide

Lingzi Sang, Anoma Mudalige, Ajaya K. Sigdel, Anthony J. Giordano, Seth R. Marder, Joseph J. Berry, Jeanne E. Pemberton

Langmuir 2015, 31, 20, 5603-5613

4. Orientation of phenylphosphonic acid self-assembled monolayers on a transparent conductive oxide: a combined NEXAFS, PM-IRRAS, and DFT study

Matthew Gliboff, Lingzi Sang, Kristina M. Knesting, Matthew C. Schalnat, Anoma Mudalige, Erin L. Ratcliff, Hong Li, Ajaya K. Sigdel, Anthony J. Giordano, Joseph J. Berry, Dennis Nordlund, Gerald T. Seidler, Jean-Luc Brédas, Seth R. Marder, Jeanne E. Pemberton, David S. Ginger

Langmuir 2013, 29, 7, 2166-2174

3. Simultaneous fluorimetric determination of the biodegradation processes of dissolved multi-component PAHs

Sang, L.Z., Wei, X.Y., Chen, J.N., Zhu, Y.X. and Zhang, Y.

Talanta 200978, 1339-1344

2. The effects of LMWOAs on biodegradation of multi-component PAHs in aqueous solution using dual-wavelength fluorimetry

Wei, X.Y., Sang, L.Z., Chen, J.N., Zhu, Y.X. and Zhang, Y.

Environ. Pollut. 2009, 157, 3150-3157

1. Effect of LMWOA on the biodegradation of phenanthrene by fluorimetry

Wei, X.Y., Sang, L.Z., Zhu, Y.X. and Zhang, Y.

Luminescence 2008, 23, 101