Dania Sheldon (D.Phil., Oxon.)

Editing, Writing, Indexing & Research Services

Science & Technology (See also Engineering, Medicine)

  • editor, “Construction of a high-performance air-breathing cathode using platinum catalyst supported by carbon black and carbon nanotubes” (Zi'ang Xiong et al., International Journal of Hydrogen Energy 41.21 [2016]: 9191–9196; doi: 10.1016/j.ijhydene.2015.11.187)
  • editor, “A core–shell Pd1Ru1Ni2@Pt/C catalyst with a ternary alloy core and Pt monolayer: enhanced activity and stability towards the oxygen reduction reaction by the addition of Ni” (Haoxiong Nan et al., Journal of Materials Chemistry A 3 [2016]: 847–855; doi: 10.1039/C5TA07740K)
  • editor, “Doped reduced graphene oxide mounted with IrO2 nanoparticles shows significantly enhanced performance as a cathode catalyst for Li-O2 batteries” (Xiaoyuan Zeng et al., Electrochimica Acta 192 [2016]: 431–438; doi: 10.1016/j.electacta.2016.02.008)
  • editor, “Enhanced Li-O2 battery performance, using graphene-like nori-derived carbon as the cathode and adding LiI in the electrolyte as a promoter” (Xiaoyuan Zeng et al., Electrochimica Acta 200 [2016]: 231–238; doi: 10.1016/j.electacta.2016.03.161)
  • editor, “High-performance membrane electrode assembly with multi-functional Pt/SnO2–SiO2/C catalyst for proton exchange membrane fuel cell operated under low-humidity conditions” (Sanying Hou et al., International Journal of Hydrogen Energy 41.21 [2016]: 9197–9203; doi: 10.1016/j.ijhydene.2015.12.084)
  • editor, “A hollow spherical doped carbon catalyst derived from zeolitic imidazolate framework nanocrystals impregnated/covered with iron phthalocyanines” (Ruiping Zheng et al., Journal of Materials Chemistry A 20 [2016]: 7859–7868; doi: 10.1039/C6TA01525E)
  • editor, “Ni, Mo Co-doped lithium manganate with significantly enhanced discharge capacity and cycling stability” (Meifeng Chen et al., Electrochimica Acta 206 [2016]: 356–365; doi: 10.1016/j.electacta.2016.04.148)
  • editor, “Nitrogen, fluorine co-doped silk-derived carbon for electrochemical oxygen reduction with high performance in alkaline solution” (F. Liu et al., Journal of Electrochemistry, 22.2 [2016]: 164–175; available at http://electrochem.xmu.edu.cn/EN/Y2016/V22/I2/164)
  • editor, “Transition metal nitride coated with atomic layers of Pt as a low-cost, highly stable electrocatalyst for the oxygen reduction reaction” (Xinlong Tian et al., Journal of the American Chemical Society 138.5 [2016]: 1575–1583; doi: 10.1021/jacs.5b11364)
  • editor, “Binary transition metal nitrides with enhanced activity and durability for the oxygen reduction reaction” (X. Tian et al., Journal of Materials Chemistry A, 3 [2015]: 16801–16809; doi: 10.1039/C5TA04410C)
  • editor, “Conversion of biomass derivatives to electricity in photo fuel cells using undoped and tungsten-doped bismuth vanadate photoanodes” (Bingqing Zhang et al., ChemSusChem 8.23 [2015]: 4049–4055; doi: 10.1002/cssc.201500942)
  • editor, “Enhanced low-humidity performance in a proton exchange membrane fuel cell by the insertion of microcrystalline cellulose between the gas diffusion layer and the anode catalyst layer” (Sanying Hou et al., International Journal of Hydrogen Energy 40.45 [2015]: 15613–15621; doi: 10.1016/j.ijhydene.2015.09.084)
  • editor, “Mesoporous silica nanoparticle supported PdIr bimetal catalyst for selective hydrogenation, and the significant promotional effect of Ir” (H. Yang et al., Applied Surface Science, 357.A [2015]: 558–563; doi: 10.1016/j.apsusc.2015.09.043)
  • editor, “Nitrogen and fluorine co-doped carbon catalyst with high oxygen reduction performance, prepared by pyrolyzing a mixture of melamine and PTFE” (H. Peng, et al., Electrochimica Acta, 182 [2015]: 963–970; doi: 10.1016/j.electacta.2015.10.012)
  • editor, “A novel stability-enhanced lithium-oxygen battery with cellulose-based composite polymer gel as the electrolyte” (L. Leng et al., Electrochimica Acta, 176 [2015]: 1108–1115; doi: 10.1016/j.electacta.2015.07.111)
  • editor, “A platinum monolayer core-shell catalyst with a ternary alloy nanoparticle core and enhanced stability for the oxygen reduction reaction” (H. Nan et al., Journal of Nanomaterials, 2015 [2015]: Article ID 715474, 11 pages; doi: 10.1155/2015/715474)
  • editor, “Ultra-high-performance core–shell structured Ru@Pt/C catalyst prepared by a facile pulse electrochemical deposition method” (D. Chen et al., Scientific Reports, 5 [2015]: Article 11604; doi: 10.1038/srep11604)
  • editor, “An ultra high performance multi-element doped mesoporous carbon catalyst derived from poly(4-vinylpyridine)” (C. You et al., Journal of Materials Chemistry A, 3.46 [2015]: 23512–23519; doi: 10.1039/C5TA05599G)
  • editor, “High-performance doped carbon electrocatalyst derived from soybean biomass and promoted by zinc chloride” (F. Liu et al., International Journal of Hydrogen Energy, 39.19 [2014]: 10128–10134; doi: 10.1016/j.ijhydene.2014.04.176)
  • editor, “Pulse electrodeposition to prepare core–shell structured AuPt@Pd/C catalyst for formic acid fuel cell application” (X. Lu et al., Journal of Power Sources, 246 [2014]: 659–666; doi: 10.1016/j.jpowsour.2013.08.004)
  • editor, “An effective Pd-promoted gold catalyst supported on mesoporous silica particles for the oxidation of benzyl alcohol” (X. Yang et al., Applied Catalysis B: Environmental, 140–141 [2013]: 419–425; doi: 10.1016/j.apcatb.2013.04.029)
  • editor, “High performance Fe- and N- doped carbon catalyst with graphene structure for oxygen reduction” (H. Peng et al., Scientific Reports, 3 [2013]: 1765; doi: 10.1038%2Fsrep01765)
  • editor, “High performance LiFePO4 microsphere composed of nanofibers with an alcohol-thermal approach” (Y. Jiang et al., Journal of Materials Chemistry A, 1.14 [2013]: 4546–4551; doi: 10.1039/C3TA01566A)
  • editor, “High-performance Pd@PtRu/C catalyst for the anodic oxidation of methanol prepared by decorating Pd/C with a PtRu shell” (Y-N. Wu et al., Journal of Power Sources, 224 [2013]: 66–71; doi: 10.1016/j.jpowsour.2012.09.079)
  • editor, “High-performance self-humidifying membrane electrode assembly prepared by simultaneously adding inorganic and organic hygroscopic materials to the anode catalyst layer” (H. Liang et al., Journal of Power Sources, 241 [2013]: 367–372; doi: 10.1016/j.jpowsour.2013.04.050)
  • editor, “Vesicular nitrogen doped carbon material derived from Fe2O3 templated polyaniline as improved non-platinum fuel cell cathode catalyst” (Z. Mo et al., Electrochimica Acta, 99 [2013]: 30–37; doi: 10.1016/j.electacta.2013.03.078)

  • editor, “Binary oxide-doped Pt/RuO2–SiOx/C catalyst with high performance and self-humidification capability: The promotion of ruthenium oxide” (Q. Zeng et al., Journal of Power Sources, 205 [2012]: 201–206; doi: 10.1016/j.jpowsour.2012.01.085)

  • editor, “A biocompatible drug delivery nanovalve system on the surface of mesoporous nanoparticles” (LLi Du et al., Microporous and Mesoporous Materials 174.1 [2012]: 200–204; doi: 10.1016/j.micromeso.2011.06.020)
  • editor, “High-performance Pd–Au bimetallic catalyst with mesoporous silica nanoparticles as support and its catalysis of cinnamaldehyde hydrogenation” (X. Yang et al., Journal of Catalysis, 291 [2012]: 36–43; doi: 10.1016/j.jcat.2012.04.003)
  • editor, “A review of electrode materials for electrochemical supercapacitors” (Guoping Wang et al., Chemical Society Reviews 41 [2012]: 797–838; doi: 10.1039/C1CS15060J)
  • editor, “A review on performance degradation of proton exchange membrane fuel cells during startup and shutdown processes: Causes, consequences, and mitigation strategies” (Yi Yu et al., Journal of Power Sources 205 [2012]: 10–23; doi: 10.1016/j.jpowsour.2012.01.059)
  • editor, “Self-humidifying membrane electrode assembly prepared by adding PVA as hygroscopic agent in anode catalyst layer” (H. Liang et al., International Journal of Hydrogen Energy, 37.17 [2012]: 12860–12867; doi: 10.1016/j.ijhydene.2012.05.083)
  • editor, “Volume production of high loading Pt/C catalyst with high performance via a microwave-assisted organic colloid route” (B. Liu et al., Journal of Power Sources, 210 [2012]: 54–59; doi: 10.1016/j.jpowsour.2012.02.113
  • editor, “Chloride contamination effects on PEM fuel cell performance and durability” (Hui Li, et al., Journal of Power Sources 196.15 [2011]: 6249–6255; doi: 10.1016/j.jpowsour.2011.04.018)
  • editor, “Developing the properties of new blue phosphors: TiO2-doped Zn2SiO4” (Wen-Cheng Tzou et al., Ceramics International 37.4 [2011]: 1341–1344; doi: 10.1016/j.ceramint.2010.12.013)
  • editor, “Effects of excess Bi2O3 on the crystalline structures and dielectric characteristics of 0.95 (Na0.5Bi0.5)TiO3–0.05 BaTiO3 ceramics” (Chia-Cheng Huang et al., Department of Electrical Engineering, National Chung Hsing University, Taiwan, 2011)
  • editor, “Fe-Nx/C electrocatalysts synthesized by pyrolysis of Fe(II)-2,3,5,6-tetra(2-pyridyl)pyrazine complex for the PEM fuel cell oxygen reduction reaction” (Amado Velázquez-Palenzuela et al., Electrochimica Acta 56.13 [2011]: 4744–4752; doi: 10.1016/j.electacta.2011.03.059)
  • editor, “Gelatin-assisted templating route to synthesize sponge-like mesoporous silica with bimodal porosity and lysozyme adsorption behavior” (Xu Yang et al., Microporous and Mesoporous Materials 143.2–3 [2011]: 263–269; doi: 10.1016/j.micromeso.2011.02.027)
  • editor, “Highly active and stable core-shell structured bifunctional catalyst for rechargeable metal-air battery application” (Zhu Haijiang Wang and Hui Li, Institute for Fuel Cell Innovation, National Research Council of Canada, 2011)
  • editor, “Improved ORR activity of non-noble metal electrocatalysts by increasing ligand and metal ratio in synthetic complex precursors” (Liucheng Wang et al., Electrochimica Acta 56.16 [2011]: 5488–5492; doi: 10.1016/j.electacta.2011.03.049)
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  • editor, “Optimizing catalyst loading in non-noble metal electrocatalyst layer to improve oxygen reduction reaction activity” (Liucheng Wang et al., Electrochemistry Communications 13.5 [2011]: 447–449; doi: 10.1016/ j.elecom.2011.02.017)
  • editor, “An air-cooled PEM fuel cell with combined oxidant and coolant flow” (Jinfeng Wu et al., Journal of Power Sources 188.1 [2009]: 199-204)
  • editor, “An air-cooled proton exchange membrane fuel cell with combined oxidant and coolant flow” (Jinfeng Wu et al., Journal of Power Sources 188.1 [2009]: 199–204)
  • editor, “Current mapping of a diagnostic modeling cell” (Xiao-Zi Yuan et al., ECS Transactions 16.2 [2008]: 985–994)
  • editor, “Electrochemical performance of a novel CoTETA/C catalyst for the oxygen reduction reaction” (Hui-Juan Zhang et al., Electrochemistry Communications 11.1 [2009]: 206–208)
  • editor, “Fabrication and optimization of DMFC catalyst layers and membrane electrode assemblies” (Liang Ma et al., in Electrocatalysis of Direct Methanol Fuel Cells: From Fundamentals to Applications [Wiley InterScience, 2009]: 417–441)
  • editor, “A general model for air-side PEM fuel cell contamination” (Zheng Shi, Journal of Power Sources 186.2 [2009]: 435–445)
  • editor, “High-activity PtRu/C catalysts synthesized by a modified impregnation method for methanol electro-oxidation” (Liang Ma et al., Electrochimica Acta 55.28 [2009]: 7274–7279)
  • editor, “Investigation of a novel catalyst coated membrane method to prepare low-platinum-loading membrane electrode assemblies for PEMFCs” (Xu Leimin et al., Fuel Cells 9.2 [2009]: 101–105)
  • editor, “Measurement of water transport rates across the gas diffusion layer in a proton exchange membrane fuel cell, and the influence of PTFE content and a micro-porous layer” (Wei Dai et al., Journal of Power Sources 188.1 [2009]: 122-126)
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  • editor, “A novel cesium hydrogen sulfate-zeolite inorganic composite electrolyte membrane for polymer electrolyte membrane fuel cell application” (Jinhua Piao et al., Journal of Power Sources 193.2 [2009]: 483–487)
  • editor, “PEM fuel cell catalyst development: challenges and perspectives” (Hansan Liu et al., in Proceedings of the 4th International Green Energy Conference, Li, J.; Wang, X.Q.; Hao, Y.Z.; Zhu, L.L. [eds.], North China Electric Power Univ., Beijing. School of Energy and Power Engineering)
  • editor, “PEM fuel cell contamination: effects of operating conditions on toluene-induced cathode degradation” (Hui Li et al., Journal of the Electrochemical Society 156.2 [2009]: B252–B257)
  • editor, “Polymer electrolyte membrane fuel cell contamination: testing and diagnosis of toluene-induced cathode degradation” (Hui li et al., Journal of Power Sources 185.1 (2008): 272–279)
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  • editor, “Porous grape-like spherical silica with hydrogen storage capability, synthesized using neutral dual surfactants as templates” (Li Du et al., International Journal of Hydrogen Energy 34.9 [2009]: 3810–3815)
  • editor, “Review of accelerated stress tests of MEA durability in PEM fuel cells” (Shengsheng Zhang et al., International Journal of Hydrogen Energy 34.1 [2009]: 388–404)
  • editor, “A review on water balance in the membrane electrode assembly of proton exchange membrane fuel cells” (Wei Dai et al., International Journal of Hydrogen Energy 34.23 [2009]: 9461–9478)
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  • editor, “The synthesis of Li(Ni1/3Co1/3Mn1/3)O2 using eutectic mixed lithium salt LiNO3–LiOH” (Zhaorong Chang et al., Electrochimica Acta 54.26 [2009]: 6529–6535)
  • editor, “Synthesis of γ-CoOOH and its effects on the positive electrodes of nickel batteries” (Zhaorong Chang et al., International Journal of Hydrogen Energy 34.5 [2009]: 2435–2439)
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  • editor, “Tuning the morphology of mesoporous silica by using various template combinations” (Li Du et al., Applied Surface Science 255.23 [2009]: 9365–9370)
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  • editor, “Ultrasonic spray pyrolyzed iron-polypyrrole mesoporous spheres for fuel cell oxygen reduction electrocatalysts” (Hansan Liu et al., Journal of Materials Chemistry 19 [2009]: 468–470) 
  • editor, “The effect of relative humidity on PEM fuel cell performance at elevated temperatures” (Jianlu Zhang et al., Electrochimica Acta 53.16 (2008): 5315–5321)
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  • editor, “A review of water flooding issues in the proton exchange membrane fuel cell” (Hui Lui, Journal of Power Sources 178.1 (2008): 103–117)
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