[1] Liu X., Adelmund S., Safaee S., Pan W., Shepherd R., Wallin T.*, “Soft photo-ionotronics.”(2025) (under review) [PDF]
[2] Liu X., Jin S., Shao Y., Kuperman S., Pratt A., Zhang D., Lo J., Joo Y., Gat A., Archer L.*, Shepherd R.*, “The multifunctional use of an aqueous battery for a high capacity jellyfish robot.” Science Advances, 10 (48), eadq7430 (2024) [PDF]
[3] Shepherd R., An H.S., Liu X., Daniel M.R., Devices and methods for data communication and sensing. US Patent Application, (2023). [PDF]
[4] Liu X.*, Energy transitions in three generations. Analytical Chemistry, 94 (18), 6637–6638 (2022). (* denotes corresponding author) [PDF] [Cover]
[5] Cao X.†,*, Liu X.†,*, Zhang Y.†,*, Flourishing as international students and scholars in the US. Matter (Cell Press), 5, 768-771 (2022). († denotes equal contribution, * denotes corresponding author) [PDF]
[6] Liu X.†, Cao X.†, Liu Y., Li X., Wang M., Li M., “Branched multiphase TiO2 with enhanced photoelectrochemical water splitting activity.” International Journal of Hydrogen Energy, 43 (46), 21365-21373 (2018). [PDF] († denotes equal contribution)
[7] Shi J., Liu Y., Huang Z., Zhou Z., Deng J., Liu, X., Li M., ”Novel cubic-phase pyrochlore Sb(III)2Sn(IV)2O7 transformed from Sn(II)2Sb(V)2O7: First-principles calculation-based pre- diction and experimental evidence.” Materials & Design, 110, 207-213 (2016). [PDF]
[8] Liu, X., Liu Y., Su J., Li M., Guo L., ”Facile preparation of BiVO4 nanoparticle film by electrostatic spray pyrolysis for photoelectrochemical water splitting.” International Journal of Hydrogen Energy, 40(38), 12964-12972 (2015). [PDF]
[1] "The Multifunctional Use of an Aqueous Battery for a High-Capacity Jellyfish Robot." Oral Presentation at the Spring 2024 Materials Research Society Meeting (MRS’24), Seattle, WA, United States, Apr. 22 – Apr. 26, 2024. (Oral)
[2] "High-performance TiO2 nanostructured array photoanode for hydrogen production from water splitting.” Oral Presentation at the Spring 2019 ACS National Meeting (ACS’19), Orlando, FL, United States, Mar. 31 – Apr. 4, 2019. (Oral)
[3] "Enhancing photoelectrocatalytic activity by partial reduction doping of titanium dioxide." 7th Annual ECS BC Young Electrochemists Symposium, Vancouver, BC, Canada, Jul. 27, 2018. (Poster)
[4] “Tunability of the photogenerated charge carrier density on semiconductors by in-Situ electrochemical treatments.” 233rd ECS Meeting, Abstract ID 110190, Seattle, WA, United States, May 13-17, 2018. (Oral)
[5] “Facile preparation of nano-branched TiO2 thin films for photoelectrochemical hydrogen generation.” 3rd ISECS, Poster 48, Nanjing, China, Jun. 24-25, 2017. (Poster)
[6] “Facile preparation of nanostructured BiVO4 thin films for photoelectrochemical hydrogen generation.” 15th China Hydrogen Energy Conference and 7th Mainland, Taiwan, and Hongkong Symposium on Hydrogen Energy, A-P-021, Shanghai, China, Nov. 14-16, 2014. (Poster)
I am a referee for International Journal of Hydrogen Energy and IEEE Robotics and Automation Letters. See the full record here.