Editorial Team

Prof. Dr. San Ping Jiang
https://www.scopus.com/authid/detail.uri?authorId=7404452780
(Scopus ID: 7404452780) Curtin University, Perth, Australia

Publications2015Journal Articles (Research)

• Cheng, Y., C. Xu, L. Jia, J. D. Gale, L. Zhang, C. Liu, P. shen, and S. Jiang. 2015. “Pristine carbon nanotubes as non-metal electrocatalysts for oxygenevolution reaction of water splitting.” Applied Catalysis B: Environmental 163: 96-104.
• Yang, T., R. Zhou, D. Wang, S. Jiang, Y. Yamauchi, S. Qiao, and J. Liu. 2015. “Hierarchical mesoporous yolk-shell structured carbonaceous nanospheres for high performance electrochemical capacitive energy storage.” Chemical Communications 51: 2518-2521.
• Guo, Z., X. xu, Y. Xiang, S. Lu, and S. Jiang. 2015. “New anhydrous proton exchange membranes for high-temperature fuel cells based on PVDF–PVP blended polymers.” Journal of Materials Chemistry A 3: 148-155.
• Wei, B., K. Chen, L. Zhao, Z. Lu, and S. Jiang. 2015. “Chromium deposition and poisoning at La0.6Sr0.4Co0.2Fe0.8O3d oxygen electrodes of solid oxide electrolysis cells.” Physical Chemistry Chemical Physics 17: 1601-1609.

2014Journal Articles (Research)

• Cheng, Y., C. Liu, H. Cheng, and S. Jiang. 2014. “One-Pot Synthesis of Metal–Carbon Nanotubes Network Hybrids as Highly Efficient Catalysts for Oxygen Evolution Reaction of Water Splitting.” ACS Applied Materials and Interfaces 6: 10089-10098.
• Cheng, Y., C. Xu, P. shen, and S. Jiang. 2014. “Effect of nitrogen-containing functionalization on the electrocatalytic activity of PtRu nanoparticles supported on carbon nanotubes for direct methanol fuel cells.” Applied Catalysis B: Environmental 158-159: 140-149.
• Zhang, J., Y. Cheng, S. Lu, L. Jia, P. shen, and S. Jiang. 2014. “Significant promotion effect of carbon nanotubes on the electrocatalytic activity of supported Pd NPs for ethanol oxidation reaction of fuel cells: the role of inner tubes.” Chemical Communications 50: 13732-13734.
• Wang, C. C., T. Becker, K. Chen, L. Zhao, B. Wei, and S. Jiang. 2014. “Effect of temperature on the chromium deposition and poisoning of La0.6Sr0.4Co0.2Fe0.8O3-[delta] cathodes of solid oxide fuel cells.”Electrochimica Acta 139: 173-179.
• Li, M., B. Hua, S. Jiang, J. Pu, B. Chi, and L. Jian. 2014. “BaZr0.1Ce0.7Y0.1Yb0.1O3-[delta] as highly active and carbon tolerant anode for direct hydrocarbon solid oxide fuel cells.”International Journal of Hydrogen Energy 39: 15975-15981.
• Jiang, S., and X. Chen. 2014. “Chromium deposition and poisoning of cathodes of solid oxide fuel cells - A review.” International Journal of Hydrogen Energy 39 (1): 505-531.
• Cao, X. G., and S. Jiang. 2014. “Effect of Sr and Al or Fe co-doping on the sinterability and conductivity of lanthanum silicate oxyapatite electrolytes for solid oxide fuel cells.” International Journal of Hydrogen Energy 39: 19093-19101.
• Cheng, Y., P. K. Shen, and S. Jiang. 2014. “NiOx nanoparticles supported on polyethylenimine functionalized CNTs as efficient electrocatalysts for supercapacitor and oxygen evolution reaction.”International Journal of Hydrogen Energy 39: 20662-20670.
• Chen, K., N. Ai, and S. Jiang. 2014. “Performance and structural stability of Gd0.2Ce0.8O1.9 infiltrated La0.8Sr0.2MnO3 nano-structured oxygen electrodes of solid oxide electrolysis cells.”International Journal of Hydrogen Energy 39: 10349-10358.
• Liu, Y., K. Chen, L. Zhao, B. Chi, J. Pu, S. Jiang, and L. Jian. 2014. “Performance stability and degradation mechanism of La0.6Sr0.4Co0.2Fe0.8O3-[delta] cathodes under solid oxide fuel cells operation conditions.” International Journal of Hydrogen Energy 39 (28): 15868-15876.
• Chen, X., C. Jin, L. Zhao, L. Zhang, C. Guan, L. Wang, Y. Song, C. Wang, J. Wang, and S. Jiang. 2014. “Study on the Cr deposition and poisoning phenomenon at (La0.6Sr0.4)(Co0.2Fe0.8)O3-d electrode of solid oxide fuel cells by transmission X-ray microscopy.”International Journal of Hydrogen Energy 39 (28): 15728-15734.
• Wang, D., J. Wang, S. Lu, and S. Jiang. 2014. “Facile synthesis of sub-monolayer Sn, Ru, and RuSn decorated Pt/C nanoparticles for formaldehyde electrooxidation.” Journal of Electroanalytical Chemistry712: 55-61.
• Zhang, J., J. Li, H. Tang, M. Pan, and S. Jiang. 2014. “Comprehensive strategy to design highly ordered mesoporous Nafion membranes for fuel cells under low humidity conditions.”Journal of Materials Chemistry A 2 (48): 20578-20587.
• Yuan, W., P. K. Shen, and S. Jiang. 2014. “Controllable synthesis of graphene supported MnO2 nanowires via self-assembly for enhanced water oxidation in both alkaline and neutral solutions.” Journal of Materials Chemistry A 2: 123-129.
• Jiang, S. 2014. “Functionalized mesoporous structured inorganic materials as high temperature proton exchange membranes for fuel cells.” Journal of Materials Chemistry A 2: 7637-7655.
• Zhao, L., J. Drennan, C. Kong, S. Amarasinghe, and S. Jiang. 2014. “Insight into surface segregation and chromium deposition on La0.6Sr0.4Co0.2Fe0.8O3-[delta] cathodes of solid oxide fuel cells.”Journal of Materials Chemistry A 2: 11114-11123.
• Chen, K., L. Fang, T. Zhang, and S. Jiang. 2014. “New zinc and bismuth doped glass sealants with substantially suppressed boron deposition and poisoning for solid oxide fuel cells.” Journal of Materials Chemistry A 2 (43): 18655-18665.
• Li, Z., Y. Li, S. Jiang, G. He, and P. K. Shen. 2014. “Novel graphene-like nanosheet supported highly active electrocatalysts with ultralow Pt loadings for oxygen reduction reaction.” Journal of Materials Chemistry A 2: 16898-16904.
• Zhu, J., S. Jiang, R. Wang, K. Shi, and P. K. Shen. 2014. “One-pot synthesis of a nitrogen and phosphorus-dual-doped carbon nanotube array as a highly effective electrocatalyst for the oxygen reduction reaction.” Journal of Materials Chemistry A 2: 15448-15453.
• Cao, X. G., and S. Jiang. 2014. “Synthesis and characterization of lanthanum silicate oxyapatites co-doped with A (A = Ba, Sr, and Ca) and Fe for solid oxide fuel cells.” Journal of Materials Chemistry A 2 (48): 20739-20747.
• Zhou, Y., J. Yang, H. Su, S. Jiang, and W. Goddard. 2014. “Insight into Proton Transfer in Phosphotungstic Acid Functionalized Mesoporous Silica-Based Proton Exchange Membrane Fuel Cells.”Journal of the American Chemical Society 136: 4954-4964.
• Chen, K., J. Hyodo, K. O’Donnell, W. D. Rickard, T. Ishihara, and S. Jiang. 2014. “Effect of Volatile Boron Species on the Electrocatalytic Activity of Cathodes of Solid Oxide Fuel Cells III. Ba0.5Sr0.5Co0.8Fe0.2O3-d Electrodes.” Journal of the Electrochemical Society 161: 1163-1170.
• Zhao, L., J. Zhang, T. Becker, and S. Jiang. 2014. “Raman Spectroscopy Study of Chromium Deposition on La0.6Sr0.4Co0.2Fe0.8O3-d Cathode of Solid Oxide Fuel Cells.”Journal of the Electrochemical Society 161 (6): F687-F693.
• Wang, C. C., K. Chen, and S. Jiang. 2014. “Sulfur Deposition and Poisoning of La0.6Sr0.4Co0.2Fe0.8O3-[delta] Cathode Materials of Solid Oxide Fuel Cells.” Journal of the Electrochemical Society 161: F1133-F1139.
• Yan, W. Y., S. Lu, Y. Xiang, and S. Jiang. 2014. “Pt-based nanoparticles on non-covalent functionalized carbon nanotubes as effective electrocatalysts for proton exchange membrane fuel cells.”RSC Advances 4: 46265-46284.
• Jiang, S. 2014. “Functionalized mesoporous materials as new class high temperature proton exchange membranes for fuel cells.” Solid State Ionics 262: 307-312.

Conference Articles (Research)

• Yuan, W., and S. Jiang. 2014. “ECS Transactions.” In 224th ECS Meeting: Electrochemical Synthesis of Fuels 2, Oct 27, 2013, San Francisco, CA: The Electrochemical Society.

2013Books (Research) - Edited

• Jiang, S., and Y. Yan. ed. 2013. Materials for High-Temperature Fuel Cells. Weinheim, Germany: Wiley-VCH.
• Jiang, S., and P. shen. ed. 2013. Nanostructured and Advanced Materials for Fuel Cells. New York, USA: CRC PR INC.

Book Chapters (Research)

• Chen, K., and S. Jiang. 2013. “Degradation and Durability of Electrodes of Solid Oxide Fuel Cells.” In Materials for High-Temperature Fuel Cells, ed. San Ping Jiang, Yushan Yan, 245-307. Germany: Wiley-VCH Verlag GmbH & Co. KGaA.
• Zhao, L., and S. Jiang. 2013. “Advanced electrode materials for solid oxide fuel cells.” In Nanostructured and Advanced Materials for Fuel Cells, ed. San Ping Jiang, Pei Kang Shen, 15-44. New York, USA: CRC PR INC.
• Jiang, S., and P. shen. 2013. “Introduction.” In Nanostructured and Advanced Materials for Fuel Cells, ed. San Ping Jiang, Pei Kang Shen, 1-14. New York, USA: CRC PR INC.

Journal Articles (Research)

• Zeng, J., B. He, K. Lamb, R. De Marco, P. shen, and S. Jiang. 2013. “Anhydrous Phosphoric Acid Functionalized Sintered Mesoporous Silica Nanocomposite Proton Exchange Membranes for Fuel Cells.”ACS Applied Materials and Interfaces 5: 11240-11248.
• Li, J., H. Tang, L. Chen, R. Chen, M. Pan, and S. Jiang. 2013. “Highly ordered and periodic mesoporous Nafion membranes via colloidal silica mediated self-assembly for fuel cells.” Chemical Communications 49: 6537-6539.
• Zeng, J., B. He, K. Lamb, R. De Marco, P. shen, and S. Jiang. 2013. “Phosphoric acid functionalized pre-sintered meso-silica for high temperature proton exchange membrane fuel cells.” Chemical Communications 49: 4655-4657.
• Cheng, Y., and S. Jiang. 2013. “Highly effective and CO-tolerant PtRu electrocatalysts supported on poly(ethyleneimine) functionalized carbon nanotubes for direct methanol fuel cells.” Electrochimica Acta99: 124-132.
• Chen, K., N. Ai, and S. Jiang. 2013. “Chemical Compatibility between Boron Oxides and Electrolyte and Cathode Materials of Solid Oxide Fuel Cells.” Fuel Cells 13 (6): 1101-1108.
• Su, R., Z. Lu, S. Jiang, Y. Shen, W. Su, and K. Chen. 2013. “Ag decorated (Ba,Sr)(Co,Fe)O3 cathodes for solid oxide fuel cells prepared by electroless silver deposition.” International Journal of Hydrogen Energy 38: 2413-2420.
• Cao, X. G., and S. Jiang. 2013. “Identification of oxygen reduction processes at (La,Sr)MnO3 electrode/La9.5Si6O26.25 apatite electrolyte interface of solid oxide fuel cells.” International Journal of Hydrogen Energy 38: 2421-2431.
• Ai, N., K. Chen, S. Liu, and S. Jiang. 2013. “Performance and stability of nano-structured Pd and Pd0.95M0.05 (M [ Mn, Co, Ce, and Gd) infiltrated Y2O3eZrO2 oxygen electrodes of solid oxide electrolysis cells.” International Journal of Hydrogen Energy 38: 16569-16578.
• Zeng, J., B. Jin, P. shen, B. He, K. Lamb, R. De Marco, and S. Jiang. 2013. “Stack performance of phosphotungstic acid functionalized mesoporous silica (HPW-mesosilica) nanocomposite high temperature proton exchange membrane fuel cells.” International Journal of Hydrogen Energy 38: 12830-12837.
• Khine, M., L. Chen, S. Zhang, J. Lin, and S. Jiang. 2013. “Syngas production by catalytic partial oxidation of methane over (La0.7A0.3)BO3 (A[Ba, Ca, Mg, Sr, and B [ Cr or Fe) perovskite oxides for portable fuel cell applications.” International Journal of Hydrogen Energy 38: 13300-13308.
• Liu, Y., F. Wang, B. Chi, J. Pu, L. Jian, and S. Jiang. 2013. “A stability study of impregnated LSCF–GDC composite cathodes of solid oxide fuel cells.” Journal of Alloys and Compounds 578: 37-43.
• Chen, X., and S. Jiang. 2013. “Highly active and stable (La0.24Sr0.16Ba0.6)(Co0.5Fe0.44Nb0.06)O3-delta (LSBCFN) cathodes for solid oxide fuel cells prepared by a novel mixing synthesis method.” Journal of Materials Chemistry A 1: 4871-4878.
• Lu, J., Q. Fang, S. Li, and S. Jiang. 2013. “A novel phosphotungstic acid impregnated meso-Nafion multilayer membrane for proton exchange membrane fuel cells.” Journal of Membrane Science 427: 101-107.
• Zhao, L., J. Hyodo, K. Chen, N. Ai, S. Amarasinghe, T. Ishihara, and S. Jiang. 2013. “Effect of Boron Deposition and Poisoning on the Surface Exchange Properties of LSCF Electrode Materials of Solid Oxide Fuel Cells.” Journal of the Electrochemical Society 160 (6): F682-F686.
• Chen, K., N. Ai, L. Zhao, and S. Jiang. 2013. “Effect of Volatile Boron Species on the Electrocatalytic Activity of Cathodes of Solid Oxide Fuel Cells.” Journal of the Electrochemical Society 160: F301-F308.
• Chen, K., N. Ai, L. Zhao, and S. Jiang. 2013. “Effect of Volatile Boron Species on the Electrocatalytic Activity of Cathodes of Solid Oxide Fuel Cells I. (La,Sr)MnO3 based electrodes.” Journal of the Electrochemical Society 160 (2): F183-F190.
• Chen, K., J. Hyodo, L. Zhao, N. Ai, T. Ishihara, and S. Jiang. 2013. “Effect of Volatile Boron Species on the Microstructure and Composition of (La,Sr)MnO3 and (La,Sr)(Co,Fe)O3 Cathode Materials of Solid Oxide Fuel Cells.” Journal of the Electrochemical Society 160 (9): F1033-F1039.
• He, C., S. Jiang, and P. shen. 2013. “Large-scale and Rapid Synthesis of Disk-Shaped and Nano-Sized Graphene.” Scientific Reports 3.
• Ai, N., K. Chen, and S. Jiang. 2013. “A fundamental study of infiltrated CeO2 and (Gd,Ce)O2 nanoparticles on the electrocatalytic activity of Pt cathodes of solid oxide fuel cells.” Solid State Ionics 233: 87-94.

Conference Articles (Research)

• Tang, H., J. Li, Z. Wang, H. Zhang, M. Pan, and S. Jiang. 2013. “Self-Assembly of Nanostructured Proton Exchange Membranes for Fuel Cells.” In 243rd American Chemical Society National Meeting, Mar 25, 2012, United States: American Chemical Society.

2012Journal Articles (Research)

• Xiang, Y., S. Lu, and S. Jiang. 2012. “Layer-by-layer self-assembly in the development of electrochemical energy conversion and storage devices from fuel cells to supercapacitors.” Chemical Society Reviews41: 7291-7321.
• Jiang, S., and H. Tang. 2012. “Methanol crossover reduction by Nafion modification via layer-by-layer self-assembly techniques.”Colloids and Surfaces A - Physiochemical and Engineering Aspects407: 49-57.
• Veder, J., K. Patel, M. Sohail, S. Jiang, M. James, and R. De Marco. 2012. “An Electrochemical Impedance Spectroscopy/Neutron Reflectometry Study of Water Uptake in the Poly(3,4-Ethylenedioxythiophene):Poly(Styrene Sulfonate)/Polymethyl Methacrylate-Polydecyl Methacrylate Copolymer Solid-Contact Ion-Selective Electrode.” Electroanalysis 24: 140-145.
• Chen, K., N. Ai, C. Lievens, J. Love, and S. Jiang. 2012. “Impact of volatile boron species on the microstructure and performance of nano-structured (Gd,Ce)O2 infiltrated (La,Sr)MnO3 cathodes of solid oxide fuel cells.” Electrochemistry Communications 23: 129-132.
• Chen, K., N. Ai, and S. Jiang. 2012. “Reasons for the high stability of nano-structured (La,Sr)MnO3 infiltrated Y2O3–ZrO2 composite oxygen electrodes of solid oxide electrolysis cells.” Electrochemistry Communications 19: 119-122.
• Zhang, J., Y. Liang, N. Li, Z. Li, C. Xu, and S. Jiang. 2012. “A remarkable activity of glycerol electrooxidation on gold in alkaline medium.” Electrochimica Acta 59: 156-159.
• Li, Z., Y. Liang, S. Jiang, X. Shan, M. Lin, and C. Xu. 2012. “Electrooxidation of methanol and ethylene glycol mixture on platinum and palladium in alkaline medium.” Fuel Cells 12: 677-682.
• Su, Y., M. Zhang, X. Liu, Z. Li, X. Zhu, C. Xu, and S. Jiang. 2012. “Development of Au Promoted Pd/C Electrocatalysts for Methanol, Ethanol and Isopropanol Oxidation in Alkaline Medium.” International Journal of Electrochemical Science 7: 4158-4170.
• Zhang, Y., K. Chen, C. Xia, S. Jiang, and M. Ni. 2012. “A model for the delamination kinetics of La0.8Sr0.2MnO3 oxygen electrodes of solid oxide electrolysis cells.” International Journal of Hydrogen Energy 37: 13914-13920.
• Zheng, L., X. Wang, L. Zhang, J. Wang, and S. Jiang. 2012. “Effect of Pd-impregnation on performance, sulfur poisoning and tolerance of Ni/GDC anode of solid oxide fuel cells.” International Journal of Hydrogen Energy 37: 10299-10310.
• Chen, K., N. Ai, and S. Jiang. 2012. “Enhanced electrochemical performance and stability of (La,Sr)MnO3-(Gd,Ce)O2 oxygen electrodes of solid oxide electrolysis cells by palladium infiltration.”International Journal of Hydrogen Energy 37: 1301-1310.
• Jiang, S. 2012. “Nanoscale and nano-structured electrodes of solid oxide fuel cells by infiltration: Advances and challenges.” International Journal of Hydrogen Energy 37: 449-470.
• Babaei, A., L. Zhang, E. Liu, and S. Jiang. 2012. “Performance and carbon deposition over Pd nanoparticle catalyst promoted Ni/GDC anode of SOFCs in methane, methanol and ethanol fuels.”International Journal of Hydrogen Energy 37: 15301-15310.
• Chen, K., N. Ai, and S. Jiang. 2012. “Performance and stability of (La,Sr)MnO3-Y2O3-ZrO2 composite oxygen electrodes under solid oxide electrolysis cell operation conditions.” International Journal of Hydrogen Energy 37: 10517-10525.
• Cao, X., and S. Jiang. 2012. “Sinterability and conductivity of barium doped aluminium lanthanum oxyapatite La9.5Ba0.5Si5.5Al0.5O26.5 electrolyte of solid oxide fuel cells.” Journal of Alloys and Compounds523: 127-133.
• Lu, J., H. Tang, C. Xu, and S. Jiang. 2012. “Nafion membranes with ordered mesoporous structure and high water retention properties for fuel cell applications.” Journal of Materials Chemistry 22: 5810-5819.
• Zeng, J., P. shen, S. Lu, Y. Xiang, L. Li, R. De Marco, and S. Jiang. 2012. “Correlation between proton conductivity, thermal stability and structural symmetries in novel HPW-meso-silica nanocomposite membranes and their performance in direct methanol fuel cells.”Journal of Membrane Science 397-398: 92-101.
• Lu, J., Z. Li, S. Jiang, P. shen, and L. Li. 2012. “Nanostructured tungsten carbide/carbon composites synthesized by a microwave heating method as supports of platinum catalysts for methanol oxidation.” Journal of Power Sources 202: 56-62.
• Kim, Y., X. Chen, S. Jiang, and J. Bae. 2012. “Effect of strontium content on chromium deposition and poisoning in Ba1-xSrxCo0.8Fe0.2O 3-d (0.3=x=0.7) cathodes of solid oxide fuel cells.”Journal of the Electrochemical Society 159 (2): B185-B194.
• Yung, H., L. Jian, and S. Jiang. 2012. “Polarization Promoted Chemical Reaction between Ba0.5Sr0.5Co0.8Fe0.2O3-d Cathode and Ceria Based Electrolytes of Solid Oxide Fuel Cells.” Journal of the Electrochemical Society 159 (11): F794-F798.
• Ai, N., K. Chen, S. Liu, Z. Lu, W. Su, and S. Jiang. 2012. “Effect of characteristics of (Sm,Ce)O2 powder on the fabrication and performance of anode-supported solid oxide fuel cells.” Materials Research Bulletin 47 (1): 121-129.

2011Journal Articles (Research)

• Yang, H., C. Guo, G. H. Guai, Q. Song, S. Jiang, and C. M. Li. 2011. “Reduction of Charge Recombination by an Amorphous Titanium Oxide Interlayer in Layered Graphene/Quantum Dots Photochemical Cells.” ACS Applied Materials and Interfaces 3 (6): 1940-1945.
• Veder, J., R. De Marco, G. J. Clarke, S. Jiang, K. Prince, E. Pretsch, and E. Bakker. 2011. “Water uptake in the hydrophilic poly(3,4-ethylenedioxythiophene):poly-(styrene sulfonate) solid-contact of all-solid-state polymeric ion-selective electrodes.” Analyst 136: 3252-3258.
• Wang, D., S. Lu, Y. Xiang, and S. Jiang. 2011. “Self-assembly of HPW on Pt/C nanoparticles with enhanced electrocatalysis activity for fuel cell applications.” Applied Catalysis B: Environmental 103: 311-317.
• Cui, Z., S. Jiang, and C. M. Li. 2011. “Highly dispersed MoOx on carbon nanotube as support for high performance Pt catalyst towards methanol oxidation.” Chemical Communications 47: 8418-8420.
• Lu, J., S. Lu, and S. Jiang. 2011. “Highly ordered mesoporous Nafion membranes for fuel cells.” Chemical Communications 47: 3216-3218.
• Tang, H., M. Pan, and S. Jiang. 2011. “Self assembled 12-tungstophosphoric acid–silica mesoporous nanocomposites as proton exchange membranes for direct alcohol fuel cells.” Dalton Transactions 40 (19): 5220-5227.
• Barczuk, P. J., A. Lewera, K. Skorupska, S. Jiang, C. M. Li, and P. J. Kulesza. 2011. “Enhancement of activity of PtRu nanoparticles towards oxidation of ethanol by supporting on poly(diallydimethylammonium)-functionalized carbon nanotubes and modification with phosphomolybdate.” Electrocatalysis 2: 52-59.
• Kim, Y., X. Chen, S. Jiang, and J. Bae. 2011. “Chromium deposition and poisoning at Ba0.5Sr0.5Co0.8Fe0.2O3 cathode of solid oxide fuel cells.” Electrochemical and Solid State Letters 14 (4): B41-B45.
• Wang, S., S. Jiang, X. Wang, and J. Guo. 2011. “Enhanced electrochemical activity of Pt nanowire network electrocatalysts for methanol oxidation reaction of fuel cells.” Electrochimica Acta 56: 1563-1569.
• Wang, S., S. Jiang, and X. Wang. 2011. “Microwave-assisted one-pot synthesis of metal/metal oxide nanoparticles on graphene and their electrochemical applications.” Electrochimica Acta 56: 3338-3344.
• Yip, K. V., M. Xu, C. Li, S. Jiang, and H. Wu. 2011. “Biochar as a fuel: 3. Mechanistic understanding on biochar thermal annealing at mild temperatures and its effect on biochar reactivity.” Energy & Fuels 25: 406-414.
• Chen, X., L. Zhang, E. Liu, and S. Jiang. 2011. “A fundamental study of chromium deposition and poisoning at (La 0.8Sr 0.2) 0.95(Mn 1-xCo x)O 3 ± d (0.0= x =1.0) cathodes of solid oxide fuel cells.”International Journal of Hydrogen Energy 36 (1): 805-821.
• Chen, K., and S. Jiang. 2011. “Failure mechanism of (La,Sr)MnO3 oxygen electrodes of solid oxide electrolysis cells.” International Journal of Hydrogen Energy 36: 10541-10549.
• Cui, Z., P. J. Kulesza, C. M. Li, W. Xing, and S. Jiang. 2011. “Pd nanoparticles supported on HPMo-PDDA-MWCNT and their activity for formic acid oxidation reaction of fuel cells.” International Journal of Hydrogen Energy 36 (14): 8508-8517.
• Liang, F., W. Zhou, B. Chi, J. Pu, S. Jiang, and L. Jian. 2011. “Pd-YSZ composite cathodes for oxygen reduction reaction of intermediate-temperature solid oxide fuel cells.” International Journal of Hydrogen Energy 36: 7670-7676.
• Zhang, L., H. Q. He, H. Wu, C. Li, and S. Jiang. 2011. “Synthesis and characterization of doped La9ASi6O26.5 (A = Ca, Sr, Ba) oxyapatite electrolyte by a water-based gel-casting route.” International Journal of Hydrogen Energy 36: 6862-6874.
• Ai, N., K. Chen, S. Jiang, Z. Lu, and W. Su. 2011. “Vacuum-assisted electroless copper plating on Ni/(Sm,Ce)O2 anodes for intermediate temperature solid oxide fuel cells.” International Journal of Hydrogen Energy 36: 7661-7669.
• He, H. Q., L. Zhang, A. Babaei, X. Wang, and S. Jiang. 2011. “Co2MnO4 spinel-palladium co-infiltrated La 0.7Ca0.3Cr0.5Mn0.5O 3-[delta] cathodes for intermediate temperature solid oxide fuel cells.”Journal of Alloys and Compounds 509 (40): 9708-9717.
• Babaei, A., L. Zhang, E. Liu, and S. Jiang. 2011. “Performance and stability of La0.8Sr0.2MnO3 cathode promoted with palladium based catalysts in solid oxide fuel cells.” Journal of Alloys and Compounds509 (14): 4781-4787.
• Yang, J., Y. Zhou, H. Su, and S. Jiang. 2011. “Theoretical study on the effective methanol decomposition on Pd(1 1 1) surface facilitated in alkaline medium.” Journal of Electroanalytical Chemistry 662: 251-256.
• Lu, J., H. Tang, S. Lu, H. Wu, and S. Jiang. 2011. “A novel inorganic proton exchange membrane based on self-assembled HPW-meso-silica for direct methanol fuel cells.” Journal of Materials Chemistry 21 (18): 6668-6676.
• Wang, S., S. Jiang, and X. Wang. 2011. “Synthesis and characterization of Pd-on-Pt and Au-on-Pt bimetallic nanosheaths on multiwalled carbon nanotubes.” Journal of Nanoparticle Research 13: 2973-2979.
• Wang, D., S. Lu, P. J. Kulesza, C. Ming Li, R. De Marco, and S. Jiang. 2011. “Enhanced oxygen reduction at Pd catalytic nanoparticles dispersed onto heteropolytungstate-assembled poly(diallyldimethylammonium)- functionalized carbonw nanotubes.”Physical Chemistry Chemical Physics 13: 4400-4410.
• Zeng, J., Y. Zhou, L. Li, and S. Jiang. 2011. “Phosphotungstic acid functionalized silica nanocomposites with tunable bicontinuous mesoporous structure and superior proton conductivity and stability for fuel cells.” Physical Chemistry Chemical Physics 13 (21): 10249-10257.
• Cui, Z., C. M. Li, and S. Jiang. 2011. “PtRu catalysts supported on heteropolyacid and chitosan functionalized carbon nanotubes for methanol oxidation reaction of fuel cells.” Physical Chemistry Chemical Physics 13: 16349-16357.
• Wang, S., X. Wang, and S. Jiang. 2011. “Self-assembly of mixed Pt and Au nanoparticles on PDDA-functionalized graphene as effective electrocatalysts for formic acid oxidation of fuel cells.” Physical Chemistry Chemical Physics 13: 6883-6891.
• Zeng, J., and S. Jiang. 2011. “Characterization of High-Temperature Proton-Exchange Membranes Based on Phosphotungstic Acid Functionalized Mesoporous Silica Nanocomposites for Fuel Cells.”The Journal of Physical Chemistry C 115: 11854-11863.
• Yang, H., G. H. Guai, C. Guo, Q. Song, S. Jiang, Y. Wang, W. Zhang, and C. M. Li. 2011. “NiO/Graphene Composite for Enhanced Charge Separation and Collection in p-Type Dye Sensitized Solar Cell.” The Journal of Physical Chemistry C 115: 12209-12215.

2010Book Chapters (Research)

• Jiang, S. 2010. “Thin Coating Technologies and Applications in High-Temperature Solid Oxide Fuel Cells.” In Handbook of Nanostructured Thin Films and Coatings - Organic Nanostructured Thin Film Devices and Coatings for Clean Energy, ed. Sam Zhang, 155-188. Boca Raton: CRC Press.

Journal Articles (Research)

• Lu, S., D. Wang, S. Jiang, Y. Xiang, J. Lu, and J. Zeng. 2010. “HPW/MCM-41 phosphotungstic acid/mesoporous silica composites as novel proton-exchange membranes for elevated-temperature fuel cells.” Advanced Materials 22: 971-976.
• Yang, M., S. Lu, J. Lu, S. Jiang, and Y. Xiang. 2010. “Layer-by-layer self-assembly of PDDA/PWA-Nafion composite membranes for direct methanol fuel cells.” Chemical Communications 46: 1434-1436.
• Tang, H., M. Pan, S. Lu, J. Lu, and S. Jiang. 2010. “One-step synthesized HPW/meso-silica inorganic proton exchange membranes for fuel cells.” Chemical Communications 46: 4351-4353.
• Wang, D., S. Lu, and S. Jiang. 2010. “Pd/HPW-PDDA-MWCNTs as effective non-Pt electrocatalysts for oxygen reduction reaction of fuel cells.” Chemical Communications 46: 2058-2060.
• Wang, S., F. Yang, S. Jiang, S. Chen, and X. Wang. 2010. “Tuning the electrocatalytic activity of Pt nanoparticles on carbon nanotubes via surface functionalization.” Electrochemistry Communications 12: 1646-1649.
• Cheng, F., X. Dai, H. Wang, S. Jiang, M. Zhang, and C. Xu. 2010. “Synergistic effect of Pd–Au bimetallic surfaces in Au-covered Pd nanowires studied for ethanol oxidation.” Electrochimica Acta 55: 2295-2298.
• Wang, S., S. Jiang, T. J. White, and X. Wang. 2010. “Synthesis of Pt and Pd nanosheaths on multi-walled carbon nanotubes as potential electrocatalysts of low temperature fuel cells.” Electrochimica Acta 55: 7652-7658.
• Wang, D., S. Lu, and S. Jiang. 2010. “Tetrahydrofuran-functionalized multi-walled carbon nanotubes as effective support for Pt and PtSn electrocatalysts of fuel cells.” Electrochimica Acta 55: 2964-2971.
• Zhang, L., S. Jiang, H. Q. He, X. Chen, J. Ma, and X. C. Song. 2010. “A comparative study of H2S poisoning on electrode behavior of Ni/YSZ and Ni/GDC anodes of solid oxide fuel cells.” International Journal of Hydrogen Energy 35: 12359-12368.
• Chen, X., Y. Zhen, J. Li, and S. Jiang. 2010. “Chromium deposition and poisoning in dry and humidified air at (La0.8Sr0.2)0.9MnO3+d cathodes of solid oxide fuel cells.” International Journal of Hydrogen Energy 35: 2477-2485.
• Wang, Y., Z. M. Sheng, H. Yang, S. Jiang, and C. M. Li. 2010. “Electrocatalysis of carbon black- or activated carbon nanotubes-supported Pd-Ag towards methanol oxidation in alkaline media.”International Journal of Hydrogen Energy 35: 10087-10093.
• Sun, P. J., S. Jiang, K. P. Ong, W. Z. Ding, P. Mao, X. G. Lu, C. H. Li, and P. Wu. 2010. “Intrinsic vacancies in cubic-zirconia bulk and surface.” Journal of Alloys and Compounds 506: 898-901.
• Shen, Y., M. Liu, T. He, and S. Jiang. 2010. “A potential interconnect material for solid oxide fuel cells: Nd0.75Ca0.25Cr0.98O3-d.” Journal of Power Sources 195: 977-983.
• Chen, J., F. Liang, D. Yan, J. Pu, B. Chi, S. Jiang, and J. Li. 2010. “Performance of large-scale anode-supported solid oxide fuel cells with impregnated La0.6Sr0.4Co0.2Fe0.8O3-Y2O3 stabilized ZrO2 composite cathodes.” Journal of Power Sources 195: 5201-5205.
• Chen, K., N. Ai, and S. Jiang. 2010. “Development of (Gd,Ce)O2-impregnated (La,Sr)MnO3 anodes of high temperature solid oxide electrolysis cells.” Journal of the Electrochemical Society 157 (11): P89-P94.
• Ai, N., S. Jiang, Z. Lu, K. Chen, and W. Su. 2010. “Nanostructured (Ba,Sr)(Co,Fe)O3 impregnated (La,Sr)mnO3 cathodes for intermediate-temperature solid oxide fuel cells.” Journal of the Electrochemical Society 157 (7): B1033-B1039.
• Babaei, A., L. Zhang, S. L. Tan, and S. Jiang. 2010. “Pd-promoted (La,Ca)(Cr,Mn)O3/GDC anode for hydrogen and methane oxidation reactions of solid oxide fuel cells.” Solid State Ionics 181: 1221-1228.

Conference Articles (Research)

• Babaei, A., and S. Jiang. 2010. “Analysis of fuel oxidation reaction steps in Ni/GDC anode electrode of solid oxide fuel cells by using palladium nanoparticles.” In Southeast Asian International Advances in Micro/Nanotechnology, Mar 8, 2010, Bangkok: The International Society for Optical Engineering.

2009Journal Articles (Research)

• Liang, F., J. Chen, S. Jiang, B. Chi, J. Pu, and L. Jian. 2009. “High performance solid oxide fuel cells with electrocatalytically enhanced (La, Sr)MnO3 cathodes.” Electrochemistry Communications 11 (5): 1048-1051.
• Xu, C., Y. Su, L. Tan, Z. Liu, J. Zhang, S. Chen, and S. Jiang. 2009. “Electrodeposited PtCo and PtMn electrocatalysts for methanol and ethanol electrooxidation of direct alcohol fuel cells.” Electrochimica Acta 54 (26): 6322-6326.
• Yin, S., P. shen, S. Song, and S. Jiang. 2009. “Functionalization of carbon nanotubes by an effective intermittent microwave heating-assisted HF/H2O2 treatment for electrocatalyst support of fuel cells.”Electrochimica Acta 54 (27): 6954-6958.
• Lu, J., S. Lu, D. Wang, M. Yang, Z. Liu, C. Xu, and S. Jiang. 2009. “Nano-structured PdxPt1-x/Ti anodes prepared by electrodeposition for alcohol electrooxidation.” Electrochimica Acta 54 (23): 5486-5491.
• Liang, F., J. Chen, S. Jiang, F. Wang, B. Chi, J. Pu, and J. Li. 2009. “Mn-Stabilised Microstructure and Performance of Pd-impregnated YSZ Cathode for Intermediate Temperature Solid Oxide Fuel Cells.”Fuel Cells 9 (5): 636-642.
• Chen, J., F. Liang, L. Liu, S. Jiang, and L. Jian. 2009. “Characterization and evaluation of La0.8 Sr0.2Co0.8 Ni0.2O3-[delta] prepared by a polymer-assisted combustion synthesis as a cathode material for intermediate temperature solid oxide fuel cells.”International Journal of Hydrogen Energy 34 (16): 6845-6851.
• Chen, X., B. Hua, J. Pu, J. Li, L. Zhang, and S. Jiang. 2009. “Interaction between (La, Sr)MnO3 cathode and Ni-Mo-Cr metallic interconnect with suppressed chromium vaporization for solid oxide fuel cells.” International Journal of Hydrogen Energy 34 (14): 5737-5748.
• Zhang, L., H. Q. He, W. Kwek, J. Ma, E. Tang, and S. Jiang. 2009. “Fabrication and characterization of anode-supported tubular solid-oxide fuel cells by slip casting and dip coating techniques.” J Am. Ceram. Soc. 92 (2): 302-310.
• Shen, Y., M. Liu, T. He, and S. Jiang. 2009. “Preparation, electrical conductivity, and thermal expansion behavior of dense Nd1-xCaxCrO3 solid solutions.” J Am. Ceram. Soc. 92 (10): 2259-2264.
• Khun, N., E. Liu, G. Yang, W. Ma, and S. Jiang. 2009. “Structure and corrosion behavior of platinum/ruthenium/nitrogen doped diamondlike carbon thin films.” Journal of Appplied Physics 106 (1): 013506-1-013506-9.
• Yang, G., E. Liu, N. Khun, and S. Jiang. 2009. “Direct electrochemical response of glucose at nickel-doped diamond like carbon thin film electrodes.” Journal of Electroanalytical Chemistry 627 (1-2): 51-57.
• Wang, S., S. Jiang, T. J. White, J. Guo, and X. Wang. 2009. “Electrocatalytic Activity and Interconnectivity of Pt Nanoparticles on Multiwalled Carbon Nanotubes for Fuel Cells.” Journal of Physical Chemistry C 113 (43): 18935-18945.
• Chen, J., F. Liang, B. Chi, J. Pu, S. Jiang, and L. Jian. 2009. “Palladium and ceria infiltrated La0.8Sr0.2Co0.5Fe0.5O3-[delta] cathodes of solid oxide fuel cells.” Journal of Power Sources 194 (2): 275-280.
• Jiang, S., L. Zhang, H. Q. He, R. Yap, and Y. Xiang. 2009. “Synthesis and characterization of lanthanum silicate apatite by gel-casting route as electrolytes for solid oxide fuel cells.” Journal of Power Sources189 (2): 972-981.
• Fu, Y., Z. Wei, S. Chen, L. Li, Y. Feng, Y. Wang, X. Ma, M. Liao, P. shen, and S. Jiang. 2009. “Synthesis of Pd/TiO2 nanotubes/Ti for oxygen reduction reaction in acidic solution.” Journal of Power Sources 189 (2): 982-987.
• Babaei, A., S. Jiang, and J. Li. 2009. “Electrocatalytic Promotion of Palladium Nanoparticles on Hydrogen Oxidation on Ni/GDC Anodes of SOFCs via Spillover.” Journal of the Electrochemical Society 156 (9): B1022-B1029.
• Wang, S., N. Kristian, S. Jiang, and X. Wang. 2009. “Controlled synthesis of dendritic Au@Pt core–shell nanomaterials for use as an effective fuel cell electrocatalyst.” Nanotechnology 20 (2).

2008Journal Articles (Research)

• Zhen, Y., A. Tok, F. Boey, and S. Jiang. 2008. “Development of Cr-tolerant cathodes of solid oxide fuel cells.” Electrochemical and Solid State Letters 11 (3): B42-B46.
• Liang, F., J. Chen, S. Jiang, B. Chi, J. Pu, and L. Jian. 2008. “Development of nanostructured and palladium promoted (La,Sr) Mn O3 -based cathodes for intermediate-temperature SOFCs.”Electrochemical and Solid State Letters 11 (12): B213-B216.
• Wang, S., N. Kristian, S. Jiang, and X. Wang. 2008. “Controlled deposition of Pt on Au nanorods and their catalytic activity towards formic acid oxidation.” Electrochemistry Communications 10 (7): 961-964.
• Liang, F., J. Chen, J. Cheng, S. Jiang, T. He, J. Pu, and J. Li. 2008. “Novel nano-structured Pd+yttrium doped ZrO2 cathodes for intermediate temperature solid oxide fuel cells.” Electrochemistry Communications 10 (1): 42-46.
• Xu, C., Z. Tian, Z. Chen, and S. Jiang. 2008. “Pd/C promoted by Au for 2-propanol electrooxidation in alkaline media.” Electrochemistry Communications 10 (2): 246-249.
• Wang, H., C. Xu, F. Cheng, M. Zhang, S. Wang, and S. Jiang. 2008. “Pd/Pt core–shell nanowire arrays as highly effective electrocatalysts for methanol electrooxidation in direct methanol fuel cells.”Electrochemistry Communications 10 (10): 1575-1578.
• Han, M., J. Xu, S. Chan, and S. Jiang. 2008. “Characterization of gas diffusion layers for PEMFC.” Electrochimica Acta 53 (16): 5361-5367.
• Xu, C., Z. Tian, P. shen, and S. Jiang. 2008. “Oxide (CeO2, NiO, Co3O4 and Mn3O4)-promoted Pd/C electrocatalysts for alcohol electrooxidation in alkaline media.” Electrochimica Acta 53 (5): 2610-2618.
• Jiang, S. 2008. “Development of lanthanum strontium manganite perovskite cathode materials of solid oxide fuel cells: A review.”Journal of Materials Science 43 (21): 6799-6833.
• Tang, H., and S. Jiang. 2008. “Self-Assembled Pt/Mesoporous Silica-Carbon Electrocatalysts for Elevated-Temperature Polymer Electrolyte Membrane Fuel Cells.” Journal of Physical Chemistry C 112 (49): 19748-19755.
• Zhen, Y., and S. Jiang. 2008. “Characterization and performance of (La,Ba)(Co,Fe)O3 cathode for solid oxide fuel cells with iron–chromium metallic interconnect.” Journal of Power Sources 180 (2): 695-703.
• Jiang, S. 2008. “Dependence of cell resistivity on electrolyte thickness in solid oxide fuel cells.” Journal of Power Sources 183 (2): 595-599.
• Jiang, S., L. Liu, K. P. Ong, P. Wu, J. Li, and J. Pu. 2008. “Electrical conductivity and performance of doped LaCrO3 perovskite oxides for solid oxide fuel cells.” Journal of Power Sources 176 (1): 82-89.
• Liu, J., J. Ye, C. Xu, S. Jiang, and Y. Tong. 2008. “Electro-oxidation of methanol, 1-propanol and 2-propanol on Pt and Pd in alkaline medium.” Journal of Power Sources 177 (1): 67-70.
• Zhen, Y., A. Tok, S. Jiang, and F. Boey. 2008. “Fabrication and performance of gadolinia-doped ceria-based intermediate-temperature solid oxide fuel cells.” Journal of Power Sources 178 (1): 69-74.
• Chen, J., F. Liang, L. Liu, S. Jiang, B. Chi, J. Pu, and J. Li. 2008. “Nano-structured (La, Sr)(Co, Fe)O3 + YSZ composite cathodes for intermediate temperature solid oxide fuel cells.” Journal of Power Sources 183 (2): 586-589.
• Jiang, S., Y. Ye, T. He, and S. Ho. 2008. “Nanostructured palladium-La0.75Sr0.25Cr0.5Mn0.5O3/Y2O3-ZrO2 composite anodes for direct methane and ethanol solid oxide fuel cells.” Journal of Power Sources185 (1): 179-182.
• Wang, W., L. Zhang, and S. Jiang. 2008. “Potential oscillation of methane oxidation reaction on (La0.75Sr0.25)(Cr0.5Mn0.5)O3 electrodes of solid oxide fuel cells.” Journal of Power S