{"id":25,"date":"2014-07-29T17:02:02","date_gmt":"2014-07-29T21:02:02","guid":{"rendered":"https:\/\/ac.fiu.edu\/?page_id=25"},"modified":"2025-12-17T19:31:02","modified_gmt":"2025-12-17T19:31:02","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.engr.colostate.edu\/laboratories\/ceramics\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\t\t
\n\t\t\t\t
\n\t\t\t\t\t
\n\t\t\t\t
\n\t\t\t\t
\n\t\t\t\t\t\t\t\t\t

Google Scholar Link<\/span><\/a><\/h1>\n

Peer-reviewed journal papers<\/span><\/h1>\n
    \n
  1. Li, Wenhao; Drozd, Vadym; Li, Meng; Cheng, Zhe*<\/strong>. \u201cMechanistic Insights into Oxygen Reduction Reaction on Metal Cathode Over BaZrO3<\/sub>-Based Electrolyte under Moist Atmosphere: Interfacial Interactions and Reaction Pathways,\u201d Journal of Electrochemical Society<\/em> (2025), 172, 104509. DOI<\/strong>:10.1149\/1945-7111\/ae10e2<\/a><\/span><\/li>\n
  2. Li, Wenhao; Drozd, Vadym; Sozal, Md Shariful Islam; Li, Meng; Cheng, Zhe*<\/strong>. \u201cMechanistic insights into oxygen reduction reaction on metal\/perovskite catalysts: Interfacial interactions and reaction pathways,\u201d Solid State Ionics<\/em> (2025), 421, 116808. DOI:10.1016\/j.ssi.2025.116808<\/a><\/span><\/li>\n
  3. Das, Suprabha; Drozd, Vadym; Durygin, Andriy; Sozal, Md Shariful Islam; Li, Wenhao; Bai, Xianming; Ding, Yong;\u00a0 Guan, Yingdong; Mao, Zhiqiang; Cinibulk, Michael; Cheng, Zhe*<\/strong>. “Reactive Flash Sintering and Characterization of Bulk High Entropy Nitrides,” Journal of the European Ceramic Society<\/em> (2025), 45 (5), 117157.\u00a0 DOI:10.1016\/j.jeurceramsoc.2024.117157<\/span><\/span><\/a><\/span><\/li>\n
  4. Jafarizadeh, Borzooye; Chowdhury, Azmal Huda; Sozal, Md Shariful Islam; Cheng, Zhe<\/strong>; Pala, Nezih; Wang, Chunlei*. “Wearable System Integrating Dual Piezoresistive and Photoplethysmography Sensors for Simultaneous Pulse Wave Monitoring,” ACS Applied Materials & Interfaces (2024), 16 (47), 65402. DOI:10.1021\/acsami.4c17710<\/a><\/span><\/li>\n<\/ol>\n
    \n
      \n
    1. Eskandariyun, Amirali; Das, Suprabha; Dubois, Diego; Saeedian, Kiyana; Durygin, Andriy; Drozd, Vadym; Cheng, Zhe*<\/strong>. \u201cEffects of processing conditions on flash sintering of commercial ZrN,\u201d Journal of the American Ceramic Society<\/em> (2024), 107, 3735. DOI:10.1111\/jace.19719<\/a><\/span><\/li>\n
    2. Sozal, Md Shariful Islam; Li, Wenhao; Das, Suprabha; Jafarizadeh, Borzooye; Chowdury, Azmal Huda; Wang, Chunlei; Cheng, Zhe*<\/strong>.,\u00a0 “Fabrication and Preliminary Testing of Silver Patterned Cathodes for Proton Conducting IT-SOFC,” Materials Advances<\/em> (2024), 5, 1940-1951. DOI:10.1039\/D3MA00793F<\/a>\u00a0<\/span><\/li>\n
    3. Das, Suprabha; Durygin, Andriy; Drozd, Vadym; Sozal, Md Shariful Islam; Cheng, Zhe*<\/strong>. \u201cReactive Flash Sintering of TiZrN and TiAlN Ternary Metal Nitrides,\u201d Journal of the European Ceramic Society<\/em> (2024), 44(4), 2037. DOI:10.1016\/j.jeurceramsoc.2023.11.079<\/a><\/span><\/li>\n
    4. Li, Wenhao; Sozal, Md Shariful Islam; Drozd, Vadym; Durygin, Andriy;\u00a0Cheng, Zhe*<\/strong>. “BaCo0.4<\/sub>Fe0.4<\/sub>Zr0.1<\/sub>Y0.1O3\u2212\u03c3<\/sub> Cathode Performance for Proton Conducting Solid Oxide Fuel Cells with BaZr0.8\u2212x<\/sub>Cex<\/sub>Y0.1<\/sub>Yb0.1<\/sub>O3\u2212\u03b4<\/sub> Electrolytes,” ECS Advances <\/em>(2023), 2 (4), 044502. DOI:10.1149\/2754-2734\/ad040c<\/a><\/span><\/li>\n
    5. Sozal, Md Shariful Islam; Tang, Wei;\u00a0 Das, Suprabha; Li, Wenhao; Durygin, Andriy; Drozd, Vadym; Zhang, Cheng; Jafarizadeh, Borzooye; Wang, Chunlei; Agarwal, Arvind; Ding, Dong; Cheng, Zhe*<\/strong>. \u201cElectrical, thermal, and H2<\/sub>O and CO2<\/sub>\u00a0poisoning behaviors of PrNi0.5<\/sub>Co0.5<\/sub>O3-\u03b4<\/sub>\u00a0electrode for intermediate temperature protonic ceramic electrochemical cells,\u201d\u00a0International Journal of Hydrogen Energy\u00a0<\/em>(2022)<\/span>
      47 (51), 21817-21827.\u00a0      DOI:10.1016\/j.ijhydene.2022.05.011<\/a><\/span><\/li>\n
    6. Das, Suprabha; Dubois, Diego; Sozal, Md Shariful Islam; Emirov, Yusuf; Jafarizadeh, Borzooye; Wang, Chunlei; Drozd, Vadym; Durygin, Andriy; Cheng, Zhe*<\/strong>. “Synthesis and flash sintering of zirconium nitride powder,” Journal of the American Ceramic Society<\/em> (2022), 105(6), 3925-3936. DOI:10.1111\/jace.18421<\/a>\u00a0<\/span><\/li>\n
    7. Xing, Junheng; Foroughi, Paniz; Mondal, Santanu; Sun, Shichen; Cheng, Zhe*<\/strong>. “Facile and economical routes toward novel high-entropy metal nitride high-temperature ceramic nanograin powders,” MRS Communication<\/em>s (2022), 12, 183-187. DOI:10.1557\/s43579-022-00159-8<\/a><\/span><\/li>\n
    8. Foroughi, Paniz; Durygin, Andriy; Sun, Shichen; Cheng, Zhe*<\/strong>. “Flash sintering of tantalum-hafnium diboride solid solution powder,” Journal of Materials Research<\/em> (2022), 1-7. DOI:10.1557\/s43578-022-00492-7<\/a><\/span><\/li>\n
    9. Belisario, Jose; Mondal, Santanu; Khakpour, Iman; Franco Hernandez, Alexander; Durygin, Andriy; Cheng, Zhe*<\/strong>. “Synthesis and flash sintering of (Hf1-x<\/sub>Zrx<\/sub>)B2<\/sub> solid solution powders,” Journal of the European Ceramic Society<\/em> (2021), 41(4), 2215-2225.\u00a0 DOI:10.1016\/j.jeurceramsoc.2020.12.015<\/a><\/span><\/li>\n
    10. Awadallah, Osama; Durygin, Andriy; Cheng, Zhe*<\/strong>. ” Unveiling the Phase Evolution of Sol\u2013Gel Sulfurized Cu2<\/sub>ZnSnS4<\/sub> Thin Films in ppm-Level H2<\/sub>S: From Binary Sulfides to Quaternary Cu-Zn-Sn-S System,” Journal of Electronic Materials<\/em> (2021), 50, 314-324.\u00a0 DOI:10.1007\/s11664-020-08539-3<\/a><\/span><\/li>\n
    11. Mondal, Santanu; Durygin, Andriy; Drozd, Vadym; Belisario, Jose; Cheng, Zhe*<\/strong>.\u00a0 “Multicomponent bulk metal nitride (Nb1\/3<\/sub>Ta1\/3<\/sub>Ti1\/3<\/sub>)N1\u2212\u03b4<\/sub> synthesis via reaction flash sintering and characterizations,” Journal of the American Ceramic Society<\/em> (2020), 103(9), 4876-4893.\u00a0 DOI:10.1111\/jace.17226<\/a><\/span><\/li>\n
    12. Sun, Shichen; Cheng, Zhe*<\/strong>. \u201cSrCo0.8<\/sub>Nb0.1<\/sub>Ta0.1<\/sub>O3\u2212\u03b4<\/sub> Based Cathodes for Electrolyte-Supported Proton-Conducting Solid Oxide Fuel Cells: Comparison with Ba0.5<\/sub>Sr0.5<\/sub>Co0.8<\/sub>Fe0.2<\/sub>O3\u2212\u03b4<\/sub> Based Cathodes and Implications,\u201d Journal of the Electrochemical Society<\/em> (2020), 167 (2), 024514. \u00a0DOI:10.1149\/1945-7111\/ab6bba<\/a><\/span><\/li>\n
    13. Sun, Shichen; Cheng, Zhe*<\/strong>. “H2<\/sub>S poisoning of proton conducting solid oxide fuel cell and comparison with conventional oxide-ion conducting solid oxide fuel cell,” Journal of the Electrochemical Society<\/em> (2018), 165 (10), F836-F844.\u00a0 DOI:10.1149\/2.0841810jes<\/a><\/span><\/li>\n
    14. Xing, Junheng; Foroughi, Paniz; Hernandez, Alexander Franco; Behrens, Andr\u00e9s; Cheng, Zhe*<\/strong>. “Facile one-step high-temperature spray pyrolysis route toward metal carbide nanopowders,” Journal of the American Ceramic Society<\/em> (2018),\u00a0101(12), 5323-5334.\u00a0 DOI:10.1111\/jace.15785<\/a><\/span><\/li>\n
    15. Foroughi, Paniz; Rabiei Baboukani, Amin; Hernandez, Alexander Franco; Wang, Chunlei; Cheng, Zhe*<\/strong> “Phase Control during Synthesis of Nanocrystalline Ultrahigh Temperature Tantalum-Hafnium Diboride Powders<\/span>,”\u00a0Journal of the American Ceramic Society<\/em> (2018), 101(12), 5745-5755.\u00a0 DOI:10.1111\/jace.15783<\/a><\/span><\/li>\n
    16. Sun, Shichen; Awadallah, Osama; Cheng, Zhe*<\/strong>. \u201cPoisoning of Nickel-Based Anode for Proton Conducting SOFC by H2<\/sub>S, CO2<\/sub>, and H2<\/sub>O as Fuel Contaminants,\u201d \u00a0Journal of Power Sources<\/em> (2018), 378, 255-263.\u00a0 DOI:10.1016\/j.jpowsour.2017.12.056<\/a><\/span><\/li>\n
    17. Awadallah, Osama; Cheng, Zhe*<\/strong>. “Study of the fundamental phase formation mechanism of sol-gel sulfurized Cu2<\/sub>ZnSnS4<\/sub> thin films using in situ Raman spectroscopy,” Solar Energy Materials and Solar Cells<\/em> (2018), 176, 222-229.\u00a0 DOI:10.1016\/j.solmat.2017.11.038<\/a><\/span><\/li>\n
    18. Foroughi, Paniz; Zhang, Cheng; Agarwal, Arvind; Cheng, Zhe*<\/strong>. “Controlling phase separation of Tax<\/sub>Hf1\u2212x<\/sub>C solid solution nanopowders during carbothermal reduction synthesis,” Journal of the American Ceramic Society<\/em> (2017), 100 (11), 5056-5065.\u00a0 DOI:10.1111\/jace.15065<\/a><\/span><\/li>\n
    19. Sun, Shichen; Cheng, Zhe*<\/strong>. “Electrochemical Behaviors for Ag, LSCF and BSCF as Oxygen Electrodes for Proton Conducting IT-SOFC,” Journal of the Electrochemical Society<\/em> (2017), 164(10), F3104-F3113.\u00a0 DOI:10.1149\/2.0121710jes<\/span><\/a><\/span><\/li>\n
    20. Awadallah, Osama; Cheng, Zhe*<\/strong>. “Formation of sol-gel based Cu2<\/sub>ZnSnS4<\/sub> thin films using ppm-level hydrogen sulfide,”<\/span> Thin Solid Films<\/em> (2017), 625 (1), 122-130.\u00a0 DOI:10.1016\/j.tsf.2017.01.054<\/a><\/span><\/li>\n
    21. Sun, Shichen; Cheng, Zhe*<\/strong>. “Effects of H2<\/sub>O and CO2<\/sub> on Electrochemical Behaviors of BSCF Cathode for Proton Conducting IT-SOFC,” Journal of the Electrochemical Society<\/em> (2017), 164(2), F81-F88.\u00a0 DOI:10.1149\/2.0611702jes<\/a><\/span><\/li>\n
    22. Cheng, Zhe*<\/strong>; Foroughi, Paniz; Behrens, Andr\u00e9s. “Synthesis of nanocrystalline TaC powders via single-step high temperature spray pyrolysis from solution precursors,” Ceramics International<\/em> (2017), 43(3), 3431-3434.\u00a0 DOI:0.1016\/j.ceramint.2016.11.177<\/a><\/span><\/li>\n
    23. Foroughi, Paniz; Cheng, Zhe*<\/strong>. “Understanding the morphological variation in the formation of B4<\/sub>C via carbothermal reduction reaction,” Ceramics International<\/em> (2016), 42(14), 15189-15198.\u00a0 DOI:10.1016\/j.ceramint.2016.06.126<\/a><\/span><\/li>\n
    24. Awadallah, Osama; Cheng, Zhe*<\/strong>. “In Situ Raman Monitoring of Cu2<\/sub>ZnSnS4<\/sub> Oxidation and Related Decomposition at Elevated Temperatures,” IEEE Journal of Photovoltaics<\/em> (2016), 6(3), 764-769.\u00a0 DOI:10.1109\/JPHOTOV.2016.2542479.\u00a0 DOI:10.1149\/2.0021508jes<\/a><\/span><\/li>\n
    25. VahidMohammadi, Armin; Cheng, Zhe*<\/strong>. “Fundamentals of Synthesis, Sintering Issues, and Chemical Stability of BaZr0.1<\/sub>Ce0.7<\/sub>Y0.1<\/sub>Yb0.1<\/sub>O3-\u03b4<\/sub> Proton Conducting Electrolyte for SOFCs,” Journal of the Electrochemical Society<\/em> (2015), 162(8), F803-811.\u00a0 DOI:10.1149\/2.0021508jes<\/span><\/a><\/span><\/li>\n
    26. Cheng, Zhe<\/strong>; Wang, Jeng-Han; Choi, Yong-Man; Lin, M. C.; Liu, Meilin. \u201cFrom Ni-YSZ to sulfur-tolerant anode materials for SOFCs: electrochemical behavior, in situ<\/em> characterization, modeling, and future perspectives,\u201d Energy & Environmental Science<\/em> (2011), 4(11), 4380-4409. (Invited perspectives<\/em><\/strong>).\u00a0 DOI:10.1039\/C1EE01758F<\/a><\/span><\/li>\n
    27. Yang, Lei; Cheng, Zhe<\/strong>; Liu, Meilin, and Wilson, Lane. \u201cNew insights into sulfur poisoning behavior of Ni-YSZ anode from long-term operation of anode-supported SOFCs,\u201d Energy & Environmental Science<\/em>, (2010), 3, 1804-1809.\u00a0 DOI:10.1039\/C0EE00386G<\/a><\/span><\/li>\n
    28. Yang, Lei; Wang, Shizhong; Blinn, Kevin; Liu, Mingfei; Liu, Ze; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cEnhanced sulfur and coking tolerance of a mixed ion conductor for SOFCs: BaZr0.1<\/sub>Ce0.7<\/sub>Y0.2-x<\/sub>Ybx<\/sub>O3-\u03b4<\/sub>,\u201d Science<\/em> (2009), 326(5949), 126-129. (American Ceramic Society Ross Coffin Purdy Award<\/em><\/strong>)<\/span><\/li>\n
    29. Yang, Lei; Zuo, Chendong; Wang, Shizhong; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cA novel composite cathode for low-temperature SOFCs based on oxide proton conductors,\u201d Advanced Materials<\/em> (2008), 20(17), 3280-3283.<\/span><\/li>\n
    30. Abernathy, Harry W; Koep, Eric; Compson, Charles; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cMonitoring Ag-Cr interactions in SOFC cathodes using Raman spectroscopy,\u201d Journal of Physical Chemistry C<\/em> (2008), 112(34), 13299-13303.<\/span><\/li>\n
    31. Choi, Songho; Wang, Jeng-Han; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cSurface modification of Ni-YSZ using niobium oxide for sulfur-tolerant anodes in solid oxide fuel cells,\u201d Journal of the Electrochemical Society<\/em> (2008), 155(5), B449-B454.<\/span><\/li>\n
    32. Cheng, Zhe<\/strong>; Abernathy, Harry; Liu, Meilin. \u201cRaman Spectroscopy of Nickel Sulfide Ni3<\/sub>S2<\/sub>,\u201d Journal of Physical Chemistry C<\/em> (2007), 111(49), 17997-18000.<\/span><\/li>\n
    33. Wang, Jeng-Han; Cheng, Zhe<\/strong>; Bredas, Jean-Luc; Liu, Meilin. \u201cElectronic and vibrational properties of nickel sulfides from first principles.\u201d Journal of Chemical Physics<\/em> (2007), 127(21), 214705\/1-214705\/8.<\/span><\/li>\n
    34. Cheng, Zhe<\/strong>; Zha, Shaowu; Liu, Meilin. \u201cInfluence of Cell Voltage and Current on Sulfur Poisoning Behavior of Solid Oxide Fuel Cells,\u201d Journal of Power Sources<\/em> (2007), 172, 688.<\/span><\/li>\n
    35. Zha, Shaowu; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cSulfur poisoning and regeneration of Ni-based anodes in solid oxide fuel cells,\u201d Journal of the Electrochemical Society<\/em> (2007), 154, B201.<\/span><\/li>\n
    36. Cheng, Zhe<\/strong>; Liu, Meilin. \u201cCharacterization of sulfur poisoning of Ni-YSZ anodes for solid oxide fuel cells using in situ<\/em> Raman microspectroscopy,\u201d Solid State Ionics<\/em> (2007), 178, 925.<\/span><\/li>\n
    37. Wu, Qi-Hui; Abernathy, Harry; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cFTIR study of the oxygen reduction reactions.\u201d Surface Review and Letters<\/em> (2007), 14(4), 587-591.<\/span><\/li>\n
    38. Cheng, Zhe<\/strong>; Zha, Shaowu; Liu, Meilin. \u201cStability of materials as candidates for sulfur-resistant anodes of solid oxide fuel cells,\u201d Journal of the Electrochemical Society<\/em> (2006), 153, A1302.<\/span><\/li>\n
    39. Dong, Jian; Cheng, Zhe<\/strong>; Zha, Shaowu; Liu, Meilin. \u201cIdentification of nickel sulfides on Ni-YSZ cermet exposed to H2<\/sub> fuel containing H2<\/sub>S using Raman spectroscopy,\u201d Journal of Power Sources<\/em> (2006), 156, 461<\/span><\/li>\n
    40. Cheng, Zhe<\/strong>; Zha, Shaowu; Aguilar, Luis; Wang, Dean; Winnick, Jack; Liu, Meilin. \u201cA Solid Oxide Fuel Cell Running on H2<\/sub>S\/CH4<\/sub> Fuel Mixtures,\u201d Electrochemical and Solid-State Letters<\/em> (2006), 9, A31.<\/span><\/li>\n
    41. Cheng, Zhe<\/strong>; Zha, Shaowu; Aguilar, Luis; Liu, Meilin. \u201cChemical, electrical, and thermal properties of strontium doped lanthanum vanadate,\u201d Solid State Ionics<\/em> (2005), 176, 1921.<\/span><\/li>\n
    42. Zha, Shaowu; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cA sulfur-tolerant anode material for SOFCs – Gd2<\/sub>Ti1.4<\/sub>Mo0.6<\/sub>O7<\/sub>,\u201d Electrochemical and Solid-State Letters<\/em> (2005), 8, A406.<\/span><\/li>\n
    43. Zha, Shaowu; Tsang, Philip; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cElectrical properties and sulfur tolerance of La0.75<\/sub>Sr0.25<\/sub>Cr1-x<\/sub>Mnx<\/sub>O3<\/sub> under anodic conditions.\u201d Journal of Solid State Chemistry<\/em> (2005), 178(6), 1844-1850.<\/span><\/li>\n
    44. Aguilar, Luis; Zha, Shaowu; Cheng, Zhe<\/strong>; Winnick, Jack; Liu, Meilin. \u201cA solid oxide fuel cell operating on hydrogen sulfide (H2<\/sub>S) and sulfur-containing fuels.\u201d Journal of Power Sources<\/em> (2004), 135(1-2), 17-24.<\/span><\/li>\n
    45. Tang, Zilong; Zhang, Junying; Cheng, Zhe<\/strong>; Zhang, Zhongtai. \u201cSynthesis of nanosized rutile TiO2<\/sub> powder at low temperature,\u201d Materials Chemistry and Physics<\/em> (2002), 77, 314.<\/span><\/li>\n<\/ol>\n

      Conference papers<\/span><\/h1>\n
      \n
        \n
      1. Awadallah, Osama; Hernandez, Joseph; Durygin, Andriy; Cheng, Zhe*<\/strong>. \u201cIn Situ Raman Monitoring of Kesterite Cu2ZnSnS4 Phase Formation from Sulfurization of Sol-gel Oxide Precursors,\u201d Photovoltaics Specialist Conference (PVSC)<\/em>, 2017 IEEE 44th <\/em>(2017), 3473-3477.\u00a0 DOI:10.1109\/PVSC.2017.8366144<\/a><\/span><\/li>\n
      2. Awadallah, Osama; Cheng, Zhe*<\/strong>. “In situ Raman Characterization of Cu2<\/sub>ZnSnS4<\/sub> Solar Absorber Materials,”\u00a0Photovoltaics Specialist Conference (PVSC), 2015 IEEE 42nd<\/em> (2015), 1-6.\u00a0 DOI:10.1109\/PVSC.2015.7355595<\/a><\/span><\/li>\n
      3. Foroughi, Paniz; Cheng, Zhe*<\/strong>. “From Micron-sized Particles to Nanoparticles and Nanobelts: Structural Non-uniformity in the Synthesis of Boron Carbide by Carbothermal Reduction Reaction,”\u00a0Advances in Ceramic Armor XI: A Collection of Papers Presented at the 39th International Conference on Advanced Ceramics and Composites (ed J. C. LaSalvia), John Wiley & Sons, Inc., Hoboken, NJ, USA<\/em> (2016), 51-62.\u00a0 DOI:10.1002\/9781119211549.ch5<\/a><\/span><\/li>\n
      4. VahidMohammadi, Armin; Cheng, Zhe*<\/strong>. “Study on Sintering and Stability Issues of BaZr0.1<\/sub>Ce0.7<\/sub>Y0.1<\/sub>Yb0.1<\/sub>O3-\u03b4<\/sub> Electrolyte for SOFCs,”\u00a0Advances in Solid Oxide Fuel Cells and Electronic Ceramics: A Collection of Papers Presented at 39th International Conference on Advanced Ceramics and Composites (eds N. P. Bansal, M. Kusnezoff and K. Shimamura), John Wiley & Sons, Inc., Hoboken, NJ, USA<\/em> (2016) 21-29.\u00a0 DOI:10.1002\/9781119211501.ch3<\/a><\/span><\/li>\n
      5. Cheng, Zhe*<\/strong>; Liu, Meilin. \u201cRational Design of Sulfur-Tolerant Anode Materials for Solid Oxide Fuel Cells,\u201d ECS Transactions<\/em> (2013), 58(2),\u00a0Electrochemical Synthesis of Fuels 2, 217-229.\u00a0 DOI:10.1149\/05802.0217ecst<\/span><\/a><\/span><\/li>\n<\/ol>\n
        \n
          \n
        1. Zha, Shaowu; Cheng, Zhe<\/strong>; Liu, Meilin. \u201cGd2<\/sub>Ti2-x<\/sub>Mox<\/sub>O7<\/sub>-based anode materials for H2<\/sub>S-air solid oxide fuel cells,\u201d ECS Transactions<\/em> (2006), 1(7), Solid State Ionic Devices IV, 293-302.\u00a0 DOI:10.1149\/1.2215563<\/span><\/span><\/li>\n
        2. Cheng, Zhe<\/strong>; Sacks, Michael D.; Wang, Chang-An.; Yang, Zhaohui. \u201cPreparation of nanocrystalline silicon carbide powders by carbothermal reduction,\u201d Ceramic Transactions<\/em> (2003), 154, 15.<\/span><\/li>\n
        3. Cheng, Zhe<\/strong>; Sacks, Michael D.; Wang, Chang-An. \u201cSynthesis of nanocrystalline silicon carbide powders,\u201d Ceramic Engineering and Science Proceedings<\/em> (2003), 24, 23-32.<\/span><\/li>\n
        4. Jain, Anubhav; Sacks, Michael D.; Wang, Chang-An; Middlemans, Michael; Cheng, Zhe<\/strong>. \u201cProcessing of nanocrystalline zirconium carbide powders.\u201d Ceramic Engineering and Science Proceedings<\/em> (2003), 24, 41-49.<\/span><\/li>\n
        5. Wang, Chang-An; Sacks, Michael D.; Staab, Greg A.; Cheng, Zhe<\/strong>. \u201cSolution-based processing of nanocrystalline SiC.\u201d Ceramic Engineering and Science Proceedings<\/em> (2002), 23(4), 701-709.<\/span><\/li>\n<\/ol>\n

          Invited book chapters<\/span><\/h1>\n