Zhong's Research Group | Chemistry | Binghamton University

Chemical Catalysis and Electrocatalysis

We have been investigating the fundamental surface and interfacial chemistry of metal, alloy and core-shell nanoparticles and nanowires with low-PGM levels for designing active, durable, and low-cost catalysts in sustainable energy and environmental applications. Some of the catalysts have demonstrated promising applications for proton exchange membrane fuel cells, direct alcohol fuel cells, rechargeable lithium-air batteries, and other energy storage devices in terms of activity and durability enhancement at low cost. Part of our on-going work involves industrial partnerships to integrate the catalysts and high-performance hydrogen fuel cell technology into the total renewable energy microgrids.

Photo and Scheme showing in-situ/operando ETEM, HE-XRD/PDF and DRIFT characterizations of catalysts

H. W. Cheng, J. Li, S. Shan, X. Lv, G. Chen, M. Madiou, D. Dinh, S. D. Mousavi, Z. Wu, S. Wang, Y. Maswadeh, V. Petkov, S. Lu, K. Pei, W. You, Renchao Che, C. J. Zhong, "In-Situ/Operando Probing of Dynamic Phase Structures of Alumina-Supported Ultrasmall Copper-Gold Alloy Nanoparticles under Reaction Conditions", Angewandte Chemie, 2025, https://onlinelibrary.wiley.com/doi/10.1002/anie.202508735. (Early View) Read More...

Image and Scheme showing in-situ ETEM characterization of supported nanoalloy catalysts

H. W. Cheng, S. Wang, G. Chen, D. Caracciolo, Z. P. Wu, S. Shan, K. Pei, Z. Liu, M. N. Madiou, X. Lv, D. K. Dinh, S. Lu, Z. Wu, W. You, Q. Li, Z. Wang, H. He, R. Che, C. J. Zhong, "Atomic Spreading and Retraction of Supported Ultrasmall Alloy Nanoparticles under Reactive Oxygen at Elevated Temperatures", J. Am. Chem. Soc., 2025, https://doi.org/10.1021/jacs.5c05696. (ASAP) Read More...

Scheme showing interfacial reactivity-triggered oscillatory lattice strains of nanoalloys

Z. P. Wu, D. Dinh, Y. Maswadeh, D.T Caracciolo, H. Zhang, T. Li, J. A Vargas, M. Madiou, C. Chen, Z. Kong, Z. Li, H.Zhang, J. R. Martínez, S. S Lu, L. Wang, Y. Ren, V. Petkov, C. J. Zhong, "Interfacial reactivity-triggered oscillatory lattice strains of nanoalloys", J. Am. Chem. Soc., 2024, 146, 35264-35274. Read More...

Scheme showing self-sustainable lattice strains of nanowires and electrocatalysis

Kong, Z.; Wu, Z.P.; Maswadeh, Y.; Yu, G.; Vargas, J.; Caracciolo, D.; Petkov, V.; Zang, S.Q.; Tao, L.; Wang, S.; Zhong, C.J., "Self-Sustainable Lattice Strains of Morphology-Tuned Nanowires in Electrocatalysis", ACS Catalysis , 2024, 14, 4709-4718. Read More...

Scheme and plot showing composition dependence of overpotentials of nanoalloy catalysts in Li-O2 battery

Na, Ren; Madiou, Merry; Caracciolo, Dominic; Wu, Zhi-Peng; Kanyuk, Connor; Shang, Guojun; Zhong, C. J., Synergy of Carbon Nanotube-Supported Bimetallic Nanoalloy Catalysts in Rechargeable Lithium-Oxygen Battery, J. Phys. Chem., C,, 2023, 127, 13547-13555. Read More...

Scheme showing in-situ/operando ETEM characterizations of catalysts

H.W. Cheng, S. Wang, G. Chen, Z. Liu, D. Caracciolo, M. Madiou, S. Shan, J. Zhang, H. He, R. Che, C. J. Zhong, Insights into Heterogeneous Catalysts under Reaction Conditions by In Situ/Operando Electron Microscopy, Advanced Energy Materials Advanced Energy Materials , 2022, 12, 2202097. Read More...

research chartsScheme showing proton exchange membrane fuel cells and alkaline membrane fuel cells

F. Xiao, Y.C.Wang, Z.P. Wu, G. Chen, F. Yang, S, Zhu, K. Siddharth, Z. Kong, A. Lu, J.C. Li, C.J. Zhong, Z.Y. Zhou, M. Shao, Recent Advances in Electrocatalysts for Proton Exchange Membrane Fuel Cells and Alkaline Membrane Fuel Cells, Adv. Mater., 2021, 33, 2006292. DOI: 10.1002/adma.202006292 Read More...

Photo and Scheme showing in-situ/operando HE-XRD/PDF characterizations of nanoalloy catalysts in fuel cells

Z. P. Wu, D. T. Caracciolo, Y. Maswadeh, J. Wen, Z. Kong, S. Shan, J. A. Vargas, S. Yan, E. Hopkins, K. Park, A. Sharma, Y. Ren, V. Petkov, L. Wang, C. J. Zhong, Alloying-Realloying Enabled High Durability for Pt-Pd-3d-Transition Metal Nanoparticle Fuel Cell Catalysts, Nature Commun., 2021, 12, 859. Read More...

Scheme showing catalysts in water-splitting electrocatalysis

S. Wang, A. Lu, C.J. Zhong, Hydrogen Production from Water Electrolysis: Role of Catalysts, Nano Convergence, 2021, 8, 4. Read More...

Image and Scheme showing nanoalloy catalysts and in-situ HE-XRD/PDF and DRIFT characterizations of catalytic propane oxidation

S. Shan, J. Li, Y. Maswadeh, C. O'Brien, H. Kareeml, D. T. Tran, I. C. Lee, Z. P. Wu, S. Wang, S. Yan, H. Cronk, D. Mott, L. Yang, J. Luo, V. Petkov, C. J. Zhong, Surface Oxygenation of Multicomponent Nanoparticles toward Active and Stable Oxidation Catalysts, Nature Commun., 2020, 11, 4201. Read More...

Image and Scheme showing activity and durability of nanowire alloy catalysts in ORR

Z. Kong, Y. Maswadeh, J. A Vargas, S. Shan, Z.P. Wu, H. Kareem, A. C. Leff, D. T. Tran, F. Chang, S. Yan, S. Nam, X. Zhao, J. M. Lee, J. Luo, S. Shastri, G. Yu, V. Petkov, .C.J. Zhong, Origin of High Activity and Durability of Twisty Nanowire Alloy Catalysts under Oxygen Reduction and Fuel Cell Operating Conditions, J. Am. Chem. Soc., 2020. 142, 1287-1299. Read More...

Scheme showing dynamic structure evolution of nanoalloy catalysts

Z.P. Wu, S. Shan, S.Q. Zang, C.J. Zhong, Dynamic Core-Shell and Alloy Structures of Multimetallic Nanomaterials and Their Catalytic Synergies, Acc. Chem. Res., 2020, 2020, 53, 2913-2924. Read More...

Scheme showing Cu and Cu-alloy catalysts and catalytic reactions

F. S. Zeng, S. Shan, A. Lu, S. Wang, D. T Caracciolo, R. J Robinson, G. Shang, L. Xue, Y. Zhao, A. Zhang, Y. Liu, S. Liu, Z. Liu, F. Bai, J. Wu, H. Wang, C. J. Zhong, Copper-Alloy Catalysts: Structural Characterizations and Catalytic Synergies, Catal. Sci. Technol., 2021, https://doi.org/10.1039/D1CY00179E. Read More...

Scheme showing platinum nanocatalyst in toluene oxidation research charts

A. Lu; H-L. Sun; N. Zhang; L. Che; S. Shan; J. Luo; J. Zheng; L. F. Yang; D.L. Peng; C.J. Zhong; B.-H. Chen, Surface Partial-Charge-Tuned Enhancement of Catalytic Activity of Platinum Nanocatalysts for Toluene Oxidation, ACS Catal., 2019, 9, 7431-7442.

Scheme showing PdCu nanoalloy catalysts in ORR

Z.P. Wu, S. Shan, Z. Xie, N. Kang, K. Park, E. Hopkins, S. Yan, A. Sharma, J. Luo, J. Wang, V. Petkov, L. Wang, C.J. Zhong, Revealing the Role of Phase Structures of Bimetallic Nanocatalysts in Oxygen Reduction Reaction, ACS Catal., 2018, 8, 11302-11313.

Scheme showing in-situ/operando HE-XRD/PDF characterizations of nanoalloy catalysts

V. Petkov, Y. Maswadeh, J. A. Vargas, S. Shan, H. Kareem, Z. P. Wu, J. Luo, C. J. Zhong, Sarvjit Shastri, Peter Kenesei, Deviations from Vegard's law and evolution of the electrocatalytic activity and stability of Pt-based nanoalloys inside fuel cells by in operando X-ray spectroscopy and total scattering, Nanoscale, 2019, 11, 5512-5525. V. Petkov, Y. Maswadeh; Y. Zhao; A. Lu; H. Cronk; F. Chang; S. Shan; H. Kareem; J. Luo; C.J. Zhong; S. Shastri; P. Kenesei, Nanoalloy catalysts inside fuel cells: An atomic-level perspective on the functionality by combined in operando x-ray spectroscopy and total scattering, Nano Energy, 2018, 49, 209-220.

Scheme showing CO oxidation over nanoalloy catalysts

H. Kareem, S. Shan, F. Lin, J.Li, Z.P. Wu, B. Prasai, C. P. O'Brien, I. C. Lee, D.T. Tran, L. Yang, D. Mott, J. Luo, V. Petkov, C. J. Zhong, Evolution of Surface Catalytic Sites on Thermochemically-Tuned Gold-Palladium Nanoalloys, Nanoscale, 2018, 10, 3849-3862.

H. Kareem, S. Shan, Z.P. Wu, L. Velasco, K. Moseman, C. P. O'Brien, D. T. Tran, I. C. Lee, Y. Maswadeh, L. Yang, D. Mott, J. Luo, V. Petkov, C.J. Zhong, Catalytic Oxidation of Propane over Palladium Alloyed with Gold: An Assessment of the Chemical and Intermediate Species, Catal. Sci. Technol., 2018, 8, 6228

Scheme showing nanostructured interfaces in Li ion battery

R. Na, N. Madiou, N. Kang, S. Yan, J. Luo, G. Liu, Z. Shan, J. Tian, C. J. Zhong, Multifunctional Anode with P-Doped Si Nanoparticles in Stress-Buffering Network of Poly-gamma-glutamate and Graphene, Chem. Commun., 2020, 56, 14412-14415.

R. Na, Y. Liu, Z.-P. Wu, X. Cheng, Z. Shan, C. J. Zhong, J. Tian, Nano-Silicon Composite Materials with N-doped Graphene of Controllable and Optimal Pyridinic-to-Pyrrolic Structural Ratios for Lithium Ion Battery, Electrochim. Acta, 2019, 321, 134742

Image and Scheme showing platinum-gold alloy nanowires in electrocatalysis

F.F. Chang, S. Shan, V. Petkov, Z. Skeete, A. Lu, J. Ravid, J. Wu, J. Luo, G. Yu, Y. Ren, C. J. Zhong, "Composition Tunability and (111) Dominant Facets of Ultrathin Platinum-Gold Alloy Nanowires towards Enhanced Electrocatalysis", J. Am. Chem. Soc., 2016, 138, 12166-12175.

Scheme showing overpotential changes of Li-Air battery using nanoalloy catalysts

N. Kang; M. S. Ng; S. Shan; J. Wu; W. Zhao; J. Yin,; W. Fang; J. Luo; V. Petkov; C.J. Zhong, "Synergistic Catalytic Properties of Biofunctional Nanoalloy Catalysts in Rechargeable Lithium-Oxygen Battery", J. Power Sources, 2016, 326, 60-69.

Scheme showing gold-cobalt nanoparticles in electrocatalytic oxygen evolution reaction

A. Lu, D.L. Peng, F. Chang, Z. Skeete, S. Shan, A. Sharma, J. Luo, C.J.Zhong, "Composition- and Structure-Tunable Gold-Cobalt Nanoparticles and Electrocatalytic Synergy for Oxygen Evolution Reaction", ACS Appl. Mater. Interfaces, 2016, 8, 20082-20091.

Photo and Scheme showing in-situ/operando HE-XRD characterization of nanoalloy catalysts in fuel cells

J. Wu, S. Shan, V. Petkov, B. Prasai, H. Cronka, P. Joseph, J. Luo, and C.J. Zhong, "Composition-Structure-Activity Relationships for Palladium-Alloyed Nanocatalysts in Oxygen Reduction Reaction: An ex-situ/in-situ High Energy X-ray Diffraction Study", ACS Catal., 2015, 5, 5317-5327.

Scheme showing composition dependence of activity for PdCu nanoalloy catalysts in ORR

J. Wu, S. Shan, J. Luo, P. Joseph, V. Petkov, C.J. Zhong, "PdCu Nanoalloy Electrocatalysts in Oxygen Reduction Reaction: Role of Composition and Phase Properties in Catalytic Synergy", ACS Appl. Mater. Interfaces, 2015, 7, 25906-25913.

Scheme showing composition dependence of activity for PdCu nanoalloy catalysts in CO oxidation reaction

S. Shan, V. Petkov, B. Prasai, J. Wu, Ph. Joseph, Z. Skeete, E. Kim, D. M. O. Malis, J. Luo, and C. J. Zhong, "Catalytic Activity of Bimetallic Catalysts Highly Sensitive to Atomic Composition and Phase Structure at the Nanoscale", Nanoscale, 2015, 7, 18936-18948.

Image and Scheme showing nanoalloy catalyst

S. Shan, L.F. Yang, J. Luo, C. J. Zhong, "Nanoalloy Catalysts: Structural and Catalytic Properties", Catal. Sci. Technol., 2014, 4, 3570-3588.

Scheme showing activity and structure of nanoalloy catalysts in CO oxidation

S. Shan, V. Petkov, L. Yang, J. Luo, P. Joseph, D. Mayzel, B. Prasai, L. Wang, M. Engelhard, C. J.Zhong, "Atomic-Structural Synergy for Catalytic CO Oxidation over Palladium-Nickel Nanoalloys", J. Am. Chem. Soc., 2014, 136, 7140-7151.

Scheme showing CO oxidation over a nanoalloy catalyst

S. Shan, V. Petkov, L. Yang, D. Mott, B. N. Wanjala, F. Cai, B.H. Chen, J. Luo, C.J. Zhong, "Oxophilicity and Structural Integrity in Maneuvering Surface Oxygenated Species on Nanoalloys in CO Oxidation", ACS Catal., 2013, 3, 3075-3085.

Scheme showing electrocatalytic activity of nanoalloy catalysts in ORR

R. Loukrakpam, S. Shan, V. Petkov, L. Yang, Jin Luo, C. J. Zhong, "Atomic Ordering Enhanced Electrocatalytic Activity of Nanoalloys for Oxygen Reduction Reaction", J. Phys. Chem. C, 2013, 117, 20715-20721.

Image and Scheme showing gold-copper nanoparticle catalysts for CO oxidation

J. Yin, S. Shan, L. Yang, D. Mott, O. Malis, V. Petkov, F. Cai, M. S. Ng, J. Luo, B. H. Chen, M. Engelhard, C. J. Zhong, "Gold-Copper Nanoparticles: Nanostructural Evolution and Bifunctional Catalytic Sites", Chem. Mater., 2012, 24, 4662-4674.

Scheme showing nanoalloying effect on ORR activity

Wanjala, B.; Fang, B.; Shan, S.; Petkov, V.; Zhu, P.; Loukrakpam, R.; Chen, Y.S.; Luo, J.; Yin, J.; Yang, L.; Shao, M.; Zhong, C.J., "Design of Ternary Nanoalloy Catalysts: Effect of Nanoscale Alloying and Structural Perfection on Electrocatalytic Enhancement", Chem. Mater., 2012, 24, 4283-4293.

Scheme showing gold-platinum nanoparticles in electrocatalytic ORR

B. N. Wanjala, J. Luo, R. Loukrakpam, D. Mott, P. N. Njoki, B. Fang, M. Engelhard, H. R. Naslund, J. K. Wu, L. Wang, O. Malis, C.J. Zhong, "Nanoscale Alloying, Phase-Segregation, and Core-Shell Evolution of Gold-Platinum Nanoparticles and Their Electrocatalytic Effect on Oxygen Reduction Reaction", Chem. Mater., 2010, 22, 4282-4294.

Scheme showing PtNiCo nanoalloy catalyst for CO oxidation and HE-XRD/PDF characterization

L. Yang, S. Shan, R. Loukrakpam, V. Petkov, Y. Ren, B. Wanjala, M. Engelhard, J. Luo, J. Yin, Y. Chen, C.J. Zhong, "Role of support-nanoalloy interactions in the atomic-scale structural and chemical ordering for tuning catalytic sites", J. Am. Chem. Soc., 2012, 134, 15048-15060.

Photo, Image and Scheme showing activity of nanoalloy catalysts for ORR and fuel cell

B. Wanjala, B. Fang, J. Luo, Y. Chen, J. Yin, M. Engelhard, R. Loukrakpam, C.J. Zhong, "Correlation between Atomic Coordination Structure and Enhanced Electrocatalytic Activity for Trimetallic Alloy Catalysts", J. Am. Chem. Soc., 2011, 133, 12714-12727.

R. Loukrakpam, B. N. Wanjala, J. Yin, B. Fang, J. Luo, M. Shao, L. Protsailo, T. Kawamura, Y. Chen, V. Petkov, C. J. Zhong, "Structural and Electrocatalytic Properties of Nanoengineered PtIrCo Catalysts for Oxygen Reduction Reaction", ACS Catalysis, 2011, 1, 562-572.

B. Wanjala, J. Luo, R. Loukrakpam, P. N. Njoki, D. Mott, M. Shao, L. Protsailo, T. Kawamura, C.J. Zhong, "Thermal Treatment of PtNiCo Electroatalysts: Effects of Nanoscale Strain and Structure on Activity and Stability for Oxygen Reduction Reaction", J. Phys. Chem. C, 2010, 114, 17580-17590.

B. Fang, J. Luo, Y. Chen, B. Wanjala, R. Loukrakpam, J. Hong, J. Yin, X. Hu, P. Hu, C.J. Zhong, "Nanoengineered PtVFe/C as the cathode electrocatalysts in PEM fuel cell: Assessment of the catalyst activity and stability", ChemCatChem, 2011, 3, 421-615.

Photo, Image and Scheme showing gold-platinum nanoparticles catalysts in rechargeable Lithium-Oxygen battery

J. Yin, B. Fang, J. Luo, B. Wanjala, R. D. Mott, Loukrakpam, M. S. Ng, Z. Li, J. Hong, M. S. Whittingham, C.J. Zhong, "Nanoscale Alloying Effect of Gold-Platinum Nanoparticles as Cathode Catalysts on Electrocatalytic Properties in Rechargeable Lithium-Oxygen Battery", Nanotechnology, 2012, 23, 305404.

Scheme showing nanostructured catalysts in fuel cells and performance

C.J. Zhong, J. Luo, P. N. Njoki, D. Mott, B. Wanjala, R. Loukrakpam, S. Lim, L. Wang, B. Fang, Z. Xu, Fuel Cell Technology: Nano-Engineered Multimetallic Catalysts, Energy & Environmental Science, 2008, 1, 454-466. Read more...

C.J. Zhong, Jin Luo, Bin Fang, Bridgid Wanjala, Peter Njoki, Rameshwori Loukrakpam, Jun Yin, Nanostructured Catalysts in Fuel Cells, Nanotechnology, 2010, 21, 062001. Read more...

Image and Plots showing PtVFe catalysts in PEM Fuel Cells and Electrocatalytic Performance

B. Fang, J. Luo, P. N. Njoki, R. Loukrakpam, B. Wanjala, J. Hong, J. Yin, X. Hu, J. Last, C. J. Zhong, "Nanoengineered PtVFe Catalysts in Proton Exchange Membrane Fuel Cells: Electrocatalytic Performance", Electrochim. Acta., 2010, 55, 8230-8236.

Scheme and Plots showing core-shell nanoparticle catalysts for electrocatalytic reactions

J. Luo, L.Y. Wang, D. Mott, P. Njoki, Y. Lin, T. He, Z. Xu, B. Wanjana, S. I-Im Lim, C.J. Zhong, "Core@Shell Nanoparticles as Electrocatalysts for Fuel Cell Reactions", Adv. Mater., 2008, 20, 4342-4347.

Scheme and Spectra showing lattice-composition relationship and CO peaks in FTIR spectrum

D. Mott, J. Luo, P. Njoki, Y. Lin, L. Wang, C. J. Zhong, "Synergistic Activity of Gold-Platinum Alloy Nanoparticle Catalysts", Catalysis Today, 2007, 122, 378-385.

J. Luo, M. M. Maye, V. Petkov, N. N. Kariuki, L. Wang, P. Njoki, D. Mott, Y. Lin, C.J. Zhong, "Phase Properties of Carbon-Supported Gold-Platinum Nanoparticles with Different Bimetallic Compositions", Chem. Mater., 2005, 17, 3086-3091.