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2017

(13) Chen H., Lai N.C. and Lu Y.C.*, "Silicon-Carbon Nanocomposite Semi-Solid Negolyte and its Application in Redox Flow Batteries" Chemistry of Materials, Accepted (2017) Link

 

(12) Zhou Y., Li Z. and Lu Y.C.*, "A stable lithium–selenium interface via solid/liquid hybrid electrolytes: Blocking polyselenides and suppressing lithium dendrite" Nano Energy, 39, 2017, 554–561 Link

 

(11) Liang Z, Zou. Q, Wang Y. and Lu Y.C.*, "Recent Progress in Applying In Situ/Operando Characterization Techniques to Probe the Solid/Liquid/Gas Interfaces of Li–O2 Batteries" Small Methods, 2017, 1700150 Link

 

 

 

(10) Cong G., Zhou Y., Li Z., and Lu Y.C.*, " A Highly Concentrated Catholyte Enabled by a Low-Melting-Point Ferrocene Derivative" ACS Energy Letter, 2017, 2, pp 869–875 Link

 

 

 

(9) Weng G.M., Li Z., Zhou Y., Cong G., and Lu Y.C.*, "Unlocking the capacity of iodide for high-energy-density zinc/polyiodide and lithium/polyiodide redox flow batteries" Energy & Environmental Science, 2017,10, 735-741 Link

 

(8) Weng G.M., Tam L.Y., and Lu Y.C.*, "High-performance LiTi2(PO4)3 anodes for high-areal-capacity flexible aqueous lithium-ion batteries" Journal of Materials Chemistry A, 5, 11764 - 11771, 2017 Theme Collection in Emerging Investigators 2017 Link

 

 

2016

(7) Li Z., Weng G.M., Zou Q., Cong G., and Lu Y.C.*, "A High-Energy and Low-Cost Polysulfide/Iodide Redox Flow Battery" Nano Energy, 30, 283-292, 2016 Link

 

(6) Liang Z. and Lu Y.C.*, "Critical Role of Redox Mediator in Suppressing Charging Instabilities of Lithium-Oxygen Batteries" Journal of the American Chemical Society, 138 (24), pp 7574–7583, 2016 Link

 

 

 

(5) Zou Q., and Lu Y.C.*, "Solvent-Dictated Lithium Sulfur Redox Reactions: An Operando UV–vis Spectroscopic Study" Journal of Physical Chemistry Letter, 2016, 7, pp 1518–1525 Link

 

 

 

(4) Wang Y., Liang Z., Zou Q., Cong G. and Lu Y.C.*, "Mechanistic Insights into Catalyst-Assisted Non-Aqueous Oxygen Evolution Reaction in Lithium-Oxygen Batteries" Journal of Physical Chemistry C, 2016, 120 (12), pp 6459–6466 Link

 

 

(3) Chen H., and Lu Y.C.*, "A High-Energy-Density Multiple Redox Semi-Solid-Liquid Flow Battery" Advanced Energy Materials2016, 6, 1502183, DOI: 10.1002/aenm.201502183. Link

 

 

2015

(2) Chen H., Zou Q., Liang Z., Liu H., Li Q., and Lu Y.C.*, "Sulphur-Impregnated Flow Cathode to Enable High-Energy-Density Lithium Flow Batteries" Nature Communications, 6, Article number: 5877, (2015). Link

 

 

2014

(1) Lu Y.C.,* He Q., and Gasteiger H.A., “Probing the Lithium–Sulfur Redox Reactions: A Rotating-Ring Disk Electrode Study" Journal of Physical Chemistry C (2014) 118, 5733-5741 Link

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