Publications

Undergraduate (ø) and postdoctoral (҂) co-authors are denoted accordingly.
  1. N. K. Ozdemir, J. P. Cline, T.-H. Wu, L. Spangler, S. McIntosh, C. J. Kiely, M. A. Snyder*, “Bioinspired, non-enzymatic, aqueous synthesis of size tunable CdS quantum dots for sustainable optoelectronic applications,” ACS Applied Nano Materials6 (2023), 7668-7678. https://pubs.acs.org/doi/10.1021/acsanm.3c00805
  2. J. Sakizadeh, J. P. Cline, E. Wolfe, R. Thorpe, M. A. Snyder, C. J. Kiely, S. McIntosh*, “Green Synthesis of CdS/NixSy Nanoparticles as a Route Towards Sustainable and Scalable Photocatalysts,” Green Chemistry25 (2023), 566-578 (Cover article). https://doi.org/10.1039/D2GC03361E
  3. N. K. Ozdemir, J. P. Cline, J. Sakizadeh, S. M. Collins, A. C. Brown, S. McIntosh, C. J. Kiely, M. A. Snyder*, “Sequential, Low-Temperature Aqueous Synthesis of Ag-In-S/Zn Quantum Dots via Staged Cation Exchange under Biomineralization Conditions,” J. Mater. Chem. B, 10 (2022), 4529-4545 (Cover article). DOI: https://doi.org/10.1039/D2TB00682K
  4. M. Sharma, M. A. Snyder*, “Facile synthesis of flower-like carbon microspheres for CO2 capture,” Microporous and Mesoporous Materials335 (2022), 111801. DOI: https://doi.org/10.1016/j.micromeso.2022.111801
  5. J. Sakizadeh, J. P. Cline, M. A. Snyder, C. J. Kiely, and S. McIntosh*, “Biomineralization of Nanocrystalline CdS/ZnS Photocatalysts via Controlled Surface Passivation for Enhanced Hydrogen Evolution,” ACS Applied Nano Materials5 (2022), 2293-2304. DOI: https://doi.org/10.1021/acsanm.1c03997
  6. N. K. Ozdemir, J. P. Cline, C. J. Kiely, S. McIntosh, M. A. Snyder*, “Scalable biomineralization of CdS Quantum dots by immobilized cystathionine γ-lyase,” ACS Sustainable Chemistry & Engineering, 8 (2020), 15189-15198, DOI: https://dx.doi.org/10.1021/acssuschemeng.0c04600
    Related Advances In Engineering Feature Article
  7. J. Sakizadeh, J. P. Cline, M. A. Snyder, C. J. Kiely, and S. McIntosh*, “Tailored Coupling of Biomineralized CdS Quantum Dots to rGO to Realize Ambient Synthesis of a High-Performance Hydrogen Evolution Photocatalyst,” ACS Applied Materials & Interfaces, 12(38) (2020), 42773-42780, DOI: https://doi.org/10.1021/acsami.0c11063
  8. A. Sadeghnejad, L. Lu, J. Cline, N. K. Ozdemir, M. A. Snyder, C. J. Kiely, S. McIntosh*, “In situ Biomineralization of CuxZnySnzS4 Nanocrystals within TiO2-based Quantum Dot Sensitized Solar Cell Anodes,” ACS Applied Materials & Interfaces, 11(49) (2019), 45656-45664.
  9. Z. Tian, M. Sharma, C. A. Wade, M. Watanabe, M. A. Snyder*, “An assembly and interfacial templating route to carbon supercapacitors with simultaneously tailored meso- and microstructure,” ACS Applied Materials & Interfaces, 11(46) (2019), 43509-43519.
  10. K.M. Schultz* and M. A. Snyder*, “Chemical Engineering ‘On-a-Chip’: Capturing the integrated scope of chemical engineering in STEM outreach,” invited article, Chemical Engineering Education (CEE), 53(3) (2019), 178-185.
  11. M. Song, Y. Ding, H. Zerze, M. A. Snyder, J. Mittal*, “Binary superlattice design by controlling DNA-mediated interactions,” Langmuir, 34(3) (2018), 991-998, DOI: 10.1021/acs.langmuir.7b02835.
  12. D. G. Gregory, Q. Guo, L. Lu, C.J. Kiely, M. A. Snyder*, “Template-induced structuring and tunable polymorphism of three-dimensionally ordered mesoporous (3DOm) metal oxides,” Langmuir, 33 (2017), 6601-6610.
  13. D. G. Gregory, L. Lu, C. J. Kiely, M. A. Snyder*, “Interfacial Stabilization of Metastable TiO2 Films,” J. Phys. Chem. C, 121(8) (2017) 4434-4442.
  14. H. Nguyen, R. DeJaco, N. Mittal, J. I. Siepmann, M. Tsapatsis, M. A. Snyder, W. Fan, B. Saha, D.G. Vlachos*, “Separation of Bio-renewable Chemicals: Current Status and Future Directions,” invited review, Annual Review of Chemical and Biomolecular Engineering, 8 (2017), 115-137.
  15. M. Song, Y. Ding, M. A. Snyder*, J. Mittal*, “Effect of nonionic surfactant on association/dissociation transition of DNA-functionalized colloids,” Langmuir, 32(39) (2016) 10017-10025.
  16. M. A. Snyder* “Deriving Hierarchical Complexity from Simplistic Colloidal Templates,” invited review, MRS Bulletin, 41(9) (2016) 683-688.
  17. M. Joy, T. Muangnapoh, M. A. Snyder*, J. F. Gilchrist*, “Flow-induced alignment of (100) fcc thin film colloidal crystals,Soft Matter., 11 (2015) 7092-7100 (Cover article); DOI: 10.1039/c5sm01076d.
  18. K. J. Lee, W. Bak, J.-J. Kim, M. A. Snyder, W.C. Yoo*, Y.-E. Sung*, “How pore parameters affect Li ion depletion in mesoporous materials for lithium-ion batteries,” J. Phys. Chem. C, 119 (2015) 7604-7613.
  19. Z. Wang, C. Li, H.J. Cho, S.-C. Kung, M. A. Snyder, W. Fan* “Direct, single-step synthesis of hierarchical zeolites without secondary templating,” J. Mater. Chem. A, 3, (2015) 1298-1305.
  20. Z. Tian, M.A. Snyder*, “Nanocasting of carbon films with interdigitated bimodal three-dimensionally ordered mesopores by template-replica coassembly,” Langmuir, 30 (2014) 12411-12420.
  21. Ian Moskowitz(ø), M. A. Snyder, Jeetain Mittal* “Water transport through functionalized nanotubes with tunable hydrophobicity,” J. Chem. Phys., 141 (2014) 18C532.
  22. S. Caratzoulas, M. E. Davis, R. J. Gorte, R. Gounder, R. F. Lobo, V. Nikolakis, S. I. Sandler,
    M. A. Snyder, M. Tsapatsis, D. G. Vlachos*, “Challenges of and Insights into Acid-catalyzed Transformations of Sugars,” J. Phys. Chem. C, 118 (2014) 22815-22833 (Invited, Cover Art).
  23. S.-C. Kung, C.-C. Chang, W. Fan, M. A. Snyder*, “Template-free ordered mesoporous silicas by binary nanoparticle assembly,” Langmuir, 30 (2014) 11802-11811.
  24. Z. Tian, M. A. Snyder*, “Hard-templating of symmetric and asymmetric carbon thin films with three-dimensionally ordered mesoporosity,” Langmuir, 30 (2014) 9828-9837.
  25. B. T. Yonemoto, Q. Guo, G. S. Hutchings, W. C. Yoo(҂), M. A. Snyder*, F. Jiao* “Observation of strain in ordered mesoporous TiO2 anatase as lithium intercalation electrode,” Chem. Commun. 50 (2014) 8997-8999.
  26. M. Song, M. A. Snyder*, J. Mittal* “Effect of molecular structure on fluid transport through carbon nanotubes,” Molecular Physics 112 (2014) 2658-2664.
  27. W.C. Yoo(҂), N. Rajabbeigi, E.E. Mallon, M. Tsapatsis, M. A. Snyder*, “Elucidating structure-properties relations for the design of highly selective carbon-based HMF sorbents,” Microporous and Mesoporous Materials 184 (2014) 72-82.
  28. M. Melillo(ø), F. Zhu, M.A. Snyder, J. Mittal*, “Water transport through nanotubes with varying interaction strength between tube wall and water,” J. Phys. Chem. Lett. 2 (2011) 2978-2983.
  29. Z. Wang, M. A. Snyder*, W. Fan, M. Tsapatsis* “Hollow cubic silica shells and assembled porous coatings,” Scripta Materialia  62 (2010) 504-507.
  30. J. Choi, H.-J. Jeong, M. A. Snyder, J. Stoeger, R. I. Masel, M. Tsapatsis* “Grain boundary defect elimination in a zeolite membrane by rapid thermal processing,” Science 325 (2009) 590-593.
  31. J. A. Lee, K. Reibel, M. A. Snyder, L. E. Scriven, M. Tsapatsis* “Geometric model describing the banded morphology of particle films formed by convective assembly,” ChemPhysChem 10 (2009) 2116-2122.
  32. M. A. Snyder, D. Demirgoez, E. Kokkoli*, M. Tsapatsis* “Benign, 3D encapsulation of sensitive mammalian cells in porous silica gels formed by Lys-Sil nanoparticle assembly,” Microporous and Mesoporous Materials  118 (2009) 387-395.
  33. W. Fan, M. A. Snyder, S. Kumar, P.-S. Lee, W. C. Yoo, A. V. McCormick, R. L. Penn, A. Stein, M. Tsapatsis* “Hierarchical nanofabrication of microporous crystals with ordered mesoporosity,” Nature Materials 7 (2008) 984-991.
  34. M. A. Snyder, J. A. Lee, T. M. Davis, L. E. Scriven, M. Tsapatsis* “Silica nanoparticle crystals and ordered coatings using Lys-Sil and a novel coating device,” Langmuir 23 (2007) 9924-9928, (Cover article).
  35. M. A. Snyder, M. Tsapatsis* “Hierarchical nano-manufacturing: From shaped zeolite nanoparticles to high performance separation membranes,” Angewandte Chemie Int. Ed. 46 (2007) 7560-7573 (Review Article).
  36. M. A. Snyder, D. G. Vlachos*, V. Nikolakis “Quantitative analysis of membrane morphology, microstructure, and polycrystallinity via laser scanning confocal microscopy: Application to NaX zeolite membranes,” Journal of Membrane Science 290 (2007) 1-18.
  37. T. M. Davis, M. A. Snyder, M. Tsapatsis* “Germania nanoparticles and nanocrystals at room temperature in water and aqueous lysine sols,” Langmuir  23 (2007) 12469-12472.
  38. T. M. Davis, M. A. Snyder, J. E. Krohn, M. Tsapatsis* “Nanoparticles in lysine-silica sols,” Chemistry of Materials  18 (2006) 5814-5816.
  39. M. A. Snyder, D. G. Vlachos* “Nano-patterned standards for improving the quantitative capability of laser scanning confocal microscopy for materials characterization,” Microporous and Mesoporous Materials 102 (2007) 101-110.
  40. M. A. Snyder, D. G. Vlachos* “Molecular sieve valves driven by adsorbate-adsorbate interactions: Hysteresis in permeation of microporous membranes,” Journal of Chemical Physics 122 (2005) 204706.
  41. M. A. Snyder, D. G. Vlachos* “Molecular valves actuated by intermolecular forces,” Physical Review E 71 (2005), 060201 (Selected for July 4, 2005 issue of Virtual Journal of Nanoscale Science & Technology, http://www.vjnano.org).
  42. M. A. Snyder, D. G. Vlachos* “The role of molecular interactions and interfaces in diffusion: Permeation through single-crystal and polycrystalline microporous membranes,” Journal of Chemical Physics 123 (2005) 184708, (Selected for Nov. 21, 2005 issue of Virtual Journal of Nanoscale Science & Technology).
  43. M. A. Snyder, D. G. Vlachos* “The role of molecular interactions and interfaces in diffusion: Transport diffusivity and evaluation of the Darken approximation,” Journal of Chemical Physics 123 (2005) 184707.
  44. M. A. Snyder, A. Chatterjee, D. G. Vlachos* “Net-event kinetic Monte Carlo for overcoming stiffness in spatially homogeneous and distributed systems,” Computers & Chemical Engineering 29 (2005) 701-712.
  45. M. A. Snyder, D. G. Vlachos* “Rational, hierarchical parameterization of complex zeolite-guest molecular models,” Molecular Simulation 30 (2004) 561-577.
  46. M. A. Snyder, Z. Lai, M. Tsapatsis, D. G. Vlachos* “Combining simultaneous reflectance and fluorescence imaging with SEM for conclusive identification of polycrystalline features of MFI membranes,” Microporous and Mesoporous Materials 76 (2004) 29-33.
  47. A. Chatterjee, M. A. Snyder, D. G. Vlachos* “Mesoscopic modeling of chemical reactivity,” Chemical Engineering Science 59 (2004) 5559-5567, (Invited).
  48. M. A. Snyder, D. G. Vlachos*, M. A. Katsoulakis “Mesoscopic modeling of transport and reaction in microporous crystalline membranes,” Chemical Engineering Science 58 (2003) 895-901, (Recipient of Chemical Engineering Science Most Cited 2003-2006 Paper Award).