{"id":363,"date":"2020-07-09T16:51:59","date_gmt":"2020-07-09T16:51:59","guid":{"rendered":"http:\/\/sites.rutgers.edu\/christopher-shuck\/?page_id=363"},"modified":"2024-09-24T16:49:46","modified_gmt":"2024-09-24T16:49:46","slug":"publications","status":"publish","type":"page","link":"https:\/\/sites.rutgers.edu\/christopher-shuck\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"
    \n
  1. M. H. M. Facure, G. Gahramanova, D. Zhang, T. Zhang, C. E. Shuck<\/strong>, L. A. Mercante, D. S. Correa, and Y. Gogotsi, “All-MXene electronic tongue for neurotransmitters detection,” Biosensors and Bioelectronics<\/em>, vol. 262, pp. 116526, 2024.\u00a0<\/a><\/li>\n
  2. L. Bi, R. Garg, N. Noriega, R. Wang, H. Kim, K. Vorotilo, J. C. Burrell, C. E. Shuck<\/strong>, F. Vitale, B. A. Patel, and Y. Gogotsi, “Soft, Multifunctional MXene-Coated Fiber Microelectrodes for Biointerfacing,” ACS Nano<\/em>, vol. 18, pp. 23217-23231, 2024.<\/a><\/li>\n
  3. T. Parker, D. Zhang, D. Bugallo, K. Shevchuk, M. Downes, G. Valurouthu, A. Inman, B. Chacon, T. Zhang, C. E. Shuck<\/strong>, Y. Hu, and Y. Gogotsi, “Fourier-Transform Infrared Spectral Library of MXenes,” Chemistry of Materials, vol. 36, pp. 8437-8446, 2024.<\/a><\/li>\n
  4. B. Mendoza-S\u00e1nchez, A. H. Ladole, E. Samperio-Niembro, S. Mangold, M. Knapp, E. N. Tseng, P. O. \u00c5. Persson, C. Douard, C. E. Shuck<\/strong>, and T. Brousse, “On the atomic structure of monolayer V4<\/sub>C3<\/sub>Tz<\/sub> and the study of charge storage processes in an acidic electrolyte using SPEIS and in-situ X-ray absorption spectroscopy,” Energy Storage Materials<\/em>, vol. 71, pp. 103566, 2024.<\/a><\/li>\n
  5. A. Sfeir, C. E. Shuck<\/strong>, A. Fadel, M. Marinova, H. Vezin, J. Dacquin, Y. Gogotsi, S. Royer, and S. Laassiri, “Unlocking the Potential of MXene in Catalysis: Decorated Mo2<\/sub>CTx<\/sub> Catalyst for Ammonia Synthesis under Mild Conditions,” Journal of the American Chemical Society,\u00a0<\/em>vol. 146, pp. 20033-20044, 2024.<\/a><\/li>\n
  6. M. Downes, C. E. Shuck<\/strong>, B. McBride, J. Busa, and Y. Gogotsi \u201cComprehensive synthesis of Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> from MAX phase to MXene,\u201d Nature Protocols<\/em>, vol. 19, pp. 1807-1834, 2024.<\/a><\/li>\n
  7. N. Noriega, M. Shekhirev, C. E. Shuck<\/strong>, J. Salvage, A. VahidMohammadi, M. K. Dymond, J. Lacey, S. Sandeman, Y. Gogotsi, and B. A. Patel \u201cPristine Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene Enables Flexible and Transparent Electrochemical Sensors,\u201d ACS Applied Materials & Interfaces<\/em>, vol. 16, pp. 6569-6578, 2024.<\/a><\/li>\n
  8. C. E. Shuck<\/strong>, \u201cMXenes are Materials, not Chemicals: Synthesis Factors that Influence MXene Properties,\u201d MRS Communications<\/em>, vol. 13, pp. 957-970, 2023.<\/a><\/li>\n
  9. T. Zhang, C. E. Shuck<\/strong>, K. Shevchuk, M. Anayee, and Y. Gogotsi, \u201cSynthesis of Three Families of Titanium Carbonitride MXenes,\u201d Journal of the American Chemical Society, <\/em>vol. 145, pp. 22374-22383, 2023.<\/a><\/li>\n
  10. R. Rakhmanov, C. E. Shuck<\/strong>, J. Al-Hourani, S. Ippolito, Y. Gogotsi, and G. Friedman, \u201cUltrathin MXene Film Interaction with Electromagnetic Radiation in the Microwave Range,\u201d Applied Physics Letters<\/em>, vol. 123, pp. 204105, 2023.<\/a><\/li>\n
  11. K. Shevchuk, A. Sarycheva, C. E. Shuck<\/strong>, and Y. Gogotsi, \u201cRaman Spectroscopy Characterization of 2D Carbide and Carbonitride MXenes,\u201d Chemistry of Materials<\/em>, vol. 35, pp. 8239-8247, 2023.<\/a><\/li>\n
  12. M. Saraf, B. Chacon, S. Ippolito, R. W. Lord, M. Anayee, R. Wang, A. Inman, C. E. Shuck<\/strong>, and Y. Gogotsi, \u201cEnhancing Charge Storage of Mo2<\/sub>Ti2<\/sub>C3<\/sub> MXene by Partial Oxidation,\u201d Advanced Functional Materials<\/em>, vol. 34, pp. 2306815, 2023.<\/a><\/li>\n
  13. A. Inman, K. Shevchuk, M. Anayee, B. Hammill, J. Lee, M. Saraf, C. E. Shuck<\/strong>, C. M. Armstrong, Y. He, T. Jin, M. Shekhirev, J. Capobianco, and Y. Gogotsi \u201cHigh-yield and High-throughput Delamination of Multilayer MXene via High-pressure Homogenization,\u201d Chemical Engineering Journal<\/em>, 2023.<\/a><\/li>\n
  14. M. A. Andrade, T. Averianov, C. E. Shuck<\/strong>, K. Shevchuk, Y. Gogotsi, and E. Pomerantseva \u201cSynthesis of 2D Solid-Solution (Nby<\/sub>V2\u2013y<\/sub>)CTx<\/sub><\/em> MXenes and Their Transformation into Oxides for Energy Storage,\u201d ACS Applied Nano Materials<\/em>, 2023.<\/a><\/li>\n
  15. L. Fusco, A. Gazzi, C. E. Shuck<\/strong>, M. Orecchioni, E. I. Ahmed, L. Giro, B. Zavan, A. Yilmazer, K. Ley, D. Bedognetti, Y. Gogotsi, and L. G. Delogu, \u201cV4<\/sub>C3<\/sub> MXene Immune Profiling and Modulation of T Cell\u2010Dendritic Cell Function and Interaction,\u201d Small Methods<\/em>, vol. 7, pp. 2300197, 2023.<\/a><\/li>\n
  16. M. Downes, C. E. Shuck<\/strong>, R. W. Lord, M. Anayee, M. Shekhirev, R. J. Wang, T. Hryhorchuk, M. Dahlqvist, J. Rosen, and Y. Gogotsi, \u201cM5<\/sub>X4<\/sub>: A Family of MXenes\u201d ACS Nano<\/em>, vol 17, pp. 17158-17168, 2023.<\/a><\/li>\n
  17. S. Vorotilo, C. E. Shuck<\/strong>, M. Anayee, M. Shekhirev, K. Matthews, R. W. Lord, I. Roslyk, V. Balitskiy, V. Zahorodna, O. Gogotsi, and Y. Gogotsi, \u201cAffordable Combustion Synthesis of V2<\/sub>AlC Precursor for V2<\/sub>CTx<\/sub><\/em> MXene,\u201d Graphene and 2D Materials<\/em>, 2023.<\/a><\/li>\n
  18. Y-C. Lin, R. Torsi, R. Younas, C. L. Hinkle, A. F. Rigosi, H. M. Hill, K. Zhang, S. Huang, C. E. Shuck<\/strong>, C. Chen, Y.-H. Lin, D. Maldonado-Lopez, J. L. Mendoza-Cortes, J. Ferrier, S. Kar, N. Nayir, A. C. T. van Duin, X. Liu, D. Jariwala, J. Jiang, J. Shi, W. Mortelmans, R. Jaramillo, J. M. J. Lopes, R. Engel-Herbert, A. Trofe, T. Ignatova, S. H. Lee, Z. Mao, L. Damian, Y. Wang, M. A. Steves, K. L. Knappenberger Jr., Z. Wang, S. Law, G. Bepete, D. Zhou, J.-X. Lin, M. S. Scheurer, J. Li, P. Wang, G. Yu, S. Wu, D. Akinwande, J. M. Redwing, M. Terrones, and J. A. Robinson, \u201cRecent Advances in 2D Material Theory, Synthesis, Properties, and Applications,\u201d ACS Nano, <\/em>vol. 17, pp. 9694-9747, 2023.<\/a><\/li>\n
  19. M. Han, D. Zhang, C. E. Shuck<\/strong>, B. McBride, T. Zhang, R. Wang, K. Shevchuk, and Y. Gogotsi, \u201cElectrochemically Modulated Interaction of MXenes with Microwaves,\u201d Nature Nanotechnology<\/em> vol. 18, pp. 373-379, 2023.<\/a><\/li>\n
  20. M. Han, D. Zhang, A. Singh, T. Hryhorchuk, C. E. Shuck<\/strong>, T. Zhang, L. Bi, B. McBride, V. B. Shenoy, and Y. Gogotsi, \u201cVersatility of Infrared Properties of MXenes,\u201d Materials Today<\/em>, vol. 64, pp. 31-39, 2023.<\/a><\/li>\n
  21. N. Oefner, C. E. Shuck<\/strong>, L. Schumacher, F. Heck, K. Hofmann, J. Schmidpeter, W. Li, M. Bahri, B. L. Mehdi, A. Drochner, B. Albert, C. Hess, Y. Gogotsi and B. J. M. Etzold, \u201cMXene Aerogel Derived Ultra-Active Vanadia Catalyst for Selective Conversion of Sustainable Alcohols to Base Chemicals,\u201d vol. 15, pp. 16714-16722, 2023.<\/a><\/li>\n
  22. G. Valurouthu, R. Panigrahi, M. Saraf, C. E. Shuck<\/strong>, B. Mallik, N. S. Kurra and Y. Gogotsi, \u201cAmbipolar Electrochemistry of Pre\u2010Intercalated Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene in Ionic Liquid Electrolyte,\u201d Batteries & Supercaps<\/em>, vol. 6, pp. e202300009, 2023.<\/a><\/li>\n
  23. M. Saraf, T. Zhang, T. Averianov, C. E. Shuck<\/strong>, R. W. Lord, E. Pomerantseva and Y. Gogotsi, \u201cVanadium and Niobium MXenes\u2014Bilayered V2<\/sub>O5<\/sub> Asymmetric Supercapacitors,\u201d Small Methods<\/em>, pp. 2201551, 2023.<\/a><\/li>\n
  24. B. Mendoza-S\u00e1nchez, E. Samperio-Niembro, O. Dolotko, T. Bergfeldt, C. Ku\u0308bel, M. Knapp, and C. E. Shuck<\/strong>, \u201cSystematic Study of the Multiple Variables Involved in V2<\/sub>AlC Acid-Based Etching Processes, a Key Step in MXene Synthesis,\u201d ACS Applied Materials & Interfaces, <\/em>vol. 15, pp. 28332-28348, 2023.<\/a><\/li>\n
  25. M. Saraf, C. E. Shuck<\/strong>, N. Norouzi, K. Matthews, A. Inman, T. Zhang, E. Pomerantseva, and Y. Gogotsi, \u201cFree\u2010Standing \u03b1\u2010MoO3<\/sub>\/Ti3<\/sub>C2<\/sub> MXene Hybrid Electrode in Water\u2010in\u2010Salt Electrolytes,\u201d Energy & Environmental Materials<\/em>, vol. 6, pp. e12516, 2023.<\/a><\/li>\n
  26. J. M. Blisko, M. J. Grzenda, R. M. Vladimirsky, C. E. Shuck<\/strong>, J. P. Singer and X. Yong, \u201cControlling Morphology in Electrosprayed Methylcellulose Nanowires via Nanoparticle Addition: Coarse-grained Modeling and Experiments,\u201d Nanoscale<\/em>, vol. 14, pp. 17985-17994, 2022.<\/a><\/li>\n
  27. K. Li, J. Zhao, A. Zhussupbekova, C. E. Shuck<\/strong>, L. Hughes, Y. Dong, S. Barwich, S. Vaesen, I. V. Shvets, M. M\u00f6bius, W. Schmitt, Y. Gogotsi and V. Nicolosi, \u201c4D Printing of MXene Hydrogels for High-efficiency Pseudocapacitive Energy Storage,\u201d Nature Communications<\/em>, vol. 13, pp. 6884, 2022.<\/a><\/li>\n
  28. Y. Yang, M. Han, C. E. Shuck<\/strong>, R. K. Sah, J. R. Paudel, A. X. Gray, Y. Gogotsi and S. J. May, \u201cCorrelating Electronic Properties with M-site Composition in Solid Solution Tiy<\/sub>Nb2-y<\/sub>CTx<\/sub><\/em> MXenes,\u201d 2D Materials, <\/em>vol. 10, pp. 14011, 2022.<\/a><\/li>\n
  29. M. Shekhirev, Y. Ogawa, C. E. Shuck<\/strong>, M. Anayee, T. Torita and Y. Gogotsi, \u201cDelamination of Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> Nanosheets with NaCl and KCl for Improved Environmental Stability of MXene Films,\u201d \u00adACS Applied Nano Materials<\/em>, vol. 5, pp. 16027-16032, 2022.<\/a><\/li>\n
  30. M. Anayee, C. E. Shuck, M. Shekhirev, A. Goad, R. Wang and Y. Gogotsi, \u201cKinetics of Ti3<\/sub>AlC2<\/sub> Etching for Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene Synthesis,\u201d Chemistry of Materials<\/em>, vol. 34, pp. 9589-9600, 2022.<\/a><\/li>\n
  31. L. Fusco, A. Gazzi, C. E. Shuck<\/strong>, M. Orecchioni, D. Alberti, S. M. D’Almeida, D. Rinchai, E. Ahmed, O. Elhanani, M. Rauner, B. Zavan, J.-C. Grivel, L. Keren, G. Pasqual, D. Bedognetti, K. Ley, Y. Gogotsi and L. C. Delogu, \u201cImmune Profiling and Multiplexed Label\u2010Free Detection of 2D MXenes by Mass Cytometry and High\u2010Dimensional Imaging,\u201d Advanced Materials<\/em>, vol. 34, pp. 2205154, 2022.<\/a><\/li>\n
  32. M. Han, C. E. Shuck<\/strong>, A. Singh, Y. Yang, A. C. Foucher, A. Goad, B. McBride, S. J. May, V. B. Shenoy, E. A. Stach and Y. Gogotsi, \u201cEfficient Microwave Absorption with Vn+1<\/sub>Cn<\/sub>Tx<\/sub><\/em> MXenes,\u201d Cell Reports Physical Science<\/em>, vol. 3, pp. 101073, 2022.<\/a><\/li>\n
  33. A. Inman, V. \u0160edajov\u00e1, K. Matthews, J. Gravlin, J. Busa, C. E. Shuck<\/strong>, A. VahidMohammadi, A. Bakandritsos, M. Shekhirev, M. Otyepka and Y. Gogotsi, \u201cShear Delamination of Multilayer MXenes,\u201d Journal of Materials Research<\/em>, vol. 37, pp. 1-11, 2022.<\/a><\/li>\n
  34. X. Li, Z. Huang, C. E. Shuck<\/strong>, G. Liang, Y. Gogotsi and C. Zhi, \u201cMXene Chemistry, Electrochemistry and Energy Storage Applications,\u201d Nature Reviews Chemistry<\/em>, vol. 6, pp. 389-404, 2022.<\/a><\/li>\n
  35. N. E. Mansoor, L. A. Diaz, C. E. Shuck<\/strong>, Y. Gogotsi, T. E. Lister and D. Estrada, \u201cRemoval and Recovery of Ammonia from Simulated Wastewater using Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene in Flow Electrode Capacitive Deionization,\u201d Nature Partner Journal Clean Water<\/em>, vol. 5, pp. 1-11, 2022.<\/a><\/li>\n
  36. A. C. Foucher, M. Han, C. E. Shuck<\/strong>, K. Maleski, Y. Gogotsi and E. A. Stach, \u201cShifts in Valence States in Bimetallic MXenes Revealed by Electron Energy-loss Spectroscopy (EELS),\u201d 2D Materials<\/em>, vol. 9, pp. 025004, 2022.<\/a><\/li>\n
  37. X. Wang, S. Bak, M. Han, C. E. Shuck<\/strong>, C. McHugh, K. Li, J. Li, J. Tang, and Y. Gogotsi, \u201cSurface Redox Pseudocapacitance of Partially Oxidized Titanium Carbide MXene in Water-in-salt Electrolyte,\u201d ACS Energy Letters<\/em>, vol. 7, pp. 30-35, 2022.<\/a><\/li>\n
  38. J. Wu, Q. Li, C. E. Shuck<\/strong>, K. Maleski, H. N. Alshareef, J. Zhou, Y. Gogotsi, and L. Huang, \u201cAn Aqueous 2.1 V Pseudocapacitor with MXene and V-MnO2<\/sub> Electrodes,\u201d Nano Research, <\/em>vol. 15, pp. 535-541, 2022.<\/a><\/li>\n
  39. M. Shekhirev, J. Busa, C. E. Shuck<\/strong>, A. Torres, S. Bagheri, A. Sinitskii, and Y. Gogotsi, \u201cUltralarge Flakes of Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene via Soft Delamination,\u201dACS Nano<\/em>, vol. 16, pp. 13695-13703, 2022.<\/a><\/li>\n
  40. M. A. Unal, F. Bayrakdar, L. Fusco, O. Besbinar, C. E. Shuck<\/strong>, S. Yalcin, M. T. Erken, A. Ozkul, C. Gurcan, O. Panatli, G. Y. Summak, C. Gokce, M. Orecchioni, A. Gazzi, F. Vitale, J. Somers, E. Demir, S. S. Yildiz, H. Nazir, J. Grivel, D. Bedognetti, A. Crisanti, K. C. Akcali, Y. Gogotsi, L. G. Delogu, and A. Yilmazer, \u201c2D MXenes with Antiviral and Immunomodulatory Properties: A Pilot Study Against SARS-CoV-2,\u201d Nano Today<\/em>, vol. 38, pp. 101136, 2021.<\/a><\/li>\n
  41. M. Shekhirev*, C. E. Shuck<\/strong>*, A. Sarycheva and Y. Gogotsi, \u201cCharacterization of MXenes at Every Step, from Their Precursors to Single Flakes and Assembled Films,\u201d Progress in Materials Science, <\/em>vol. 120, pp. 100757, 2021.<\/a><\/li>\n
  42. K. Maleski, C. E. Shuck<\/strong>, A. T. Fafarman, and Y. Gogotsi, \u201cThe Broad Chromatic Range of Two-Dimensional Transition Metal Carbides (MXenes),\u201d Advanced Optical Materials, <\/em>vol. 9, pp. 2001563, 2021.<\/a><\/li>\n
  43. L. Wang, M. Han, C. E. Shuck<\/strong>, X. Wang, and Y. Gogotsi, \u201cAdjustable Electrochemical Properties of Solid-Solution MXenes,\u201d Nano Energy<\/em>, vol. 88, pp. 106308, 2021.<\/a><\/li>\n
  44. T. S. Mathis, K. Maleski, A. Goad, A. Sarycheva, M. Anayee, A. C. Foucher, K. Hantanasirisakul, C. E. Shuck<\/strong>, E. A. Stach, and Y. Gogotsi, \u201cModified MAX Phase Synthesis for Environmentally Stable and Highly Conductive Ti3<\/sub>C2<\/sub> MXene,\u201d ACS Nano<\/em>, vol. 15, pp. 6420-6429, 2021.<\/a><\/li>\n
  45. C. E. Shuck<\/strong>, K. Ventura-Martinez, A. Goad, S. Uzun, M. Shekhirev, and Y. Gogotsi \u201cSafe Synthesis of MAX and MXene: Guidelines to Reduce Risk During Synthesis,\u201d ACS Chemical Health & Safety<\/em>, vol. 28, pp. 326-338, 2021.<\/a><\/li>\n
  46. K. Matthews, T. Zhang, C. E. Shuck<\/strong>, A. VahidMohammadi, and Y. Gogotsi \u201cGuidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V2<\/sub>CTx<\/sub><\/em> MXene,\u201d Chemistry of Materials<\/em>, vol. 34, pp. 499-509, 2021.<\/a><\/li>\n
  47. J. Li, X. Wang, W. Sun, K. Maleski, C. E. Shuck<\/strong>, K. Li, P. Urbankowski, K. Hantanasirisakul, X. Wang, P. Kent, H. Wang, and Y. Gogotsi, \u201cIntercalation Induced Reversible Electrochromic Behavior of Two-dimensional Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene in Organic Electrolytes,\u201d ChemElectroChem<\/em>, vol. 8, pp. 151-156, 2021.<\/a><\/li>\n
  48. P. Singh, B. Akuzum, C. E. Shuck<\/strong>, K. Pal, Y. Gogotsi, E. C. Kumbur \u201cMXene-based Suspension Electrode with Improved Energy Density for Electrochemical Flow Capacitors,\u201d Journal of Power Sources<\/em>, vol. 506, pp. 230187, 2021.<\/a><\/li>\n
  49. M. Elancheziyan, M. Eswaran, C. E. Shuck<\/strong>, S. Senthilkumar, S. Elumalai, R. Dhanusuraman, and V. K. Ponnusamy, \u201cFacile Synthesis of Polyaniline\/Titanium Carbide (MXene) Nanosheets\/Palladium Nanocomposite for Efficient Electrocatalytic Oxidation of Methanol for Fuel Cell Application,\u201d Fuel<\/em>, vol. 303, pp. 121329, 2021.<\/a><\/li>\n
  50. P. Ridley, C. Gallano, R. Andris, C. E. Shuck<\/strong>, Y. Gogotsi, and E. Pomerantseva, MXene-Derived Bilayered Vanadium Oxides with Enhanced Stability in Li-Ion Batteries, ACS Applied Energy Materials<\/em>, vol. 3, pp. 10892-10901, 2020.<\/a><\/li>\n
  51. M. Han*, K. Maleski*, C. E. Shuck<\/strong>*, Y. Yang, J. T. Glazar, A. C. Foucher, K. Hantanasirisakul, A. Sarycheva, N. C. Frey, S. J. May, V. B. Shenoy, E. A. Stach, and Y. Gogotsi \u201cTailoring Electronic and Optical Properties of MXenes through Forming Solid Solutions,\u201d Journal of the American Chemical Society, <\/em>vol. 142, pp. 19110-19118, 2020.<\/a><\/li>\n
  52. D. O. Moskovskikh, S. Vorotilo, V. S. Buinevich, A. S. Sedegov, K. V. Kuskov, C. E. Shuck<\/strong>, M. Zhukovskyi, and A. S. Mukasyan, \u201cFabrication of Extremely Hard and Tough Bulk High-Entropy Nitride Ceramics (HfZrTaNbTi)N,\u201d Scientific Reports, <\/em>vol. 10, 2020.<\/a><\/li>\n
  53. Q. Zhao, M. Seredych, E. Precetti, C. E. Shuck<\/strong>, M. Harhay, R. Pang, C. Shan, and Y. Gogotsi \u201cAdsorption of Uremic Toxins Using Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene for Dialysate Regeneration,\u201d ACS Nano<\/em>, vol. 14, pp. 11787-11798, 2020.<\/a><\/li>\n
  54. C. E. Shuck<\/strong> and Y. Gogotsi, \u201cTaking MXenes from the Lab to Commercial Products,\u201d Chemical Engineering Journal<\/em>, vol. 401, pp. 125786, 2020.<\/a><\/li>\n
  55. D. Pinto, B. Anasori, H. Avireddy, C. E. Shuck<\/strong>, K. Hantanasirisakul, G. Deysher, J. R. Morante, W. Porzio, H. N. Alshareef, and Y. Gogotsi, \u201cSynthesis and Electrochemical Properties of 2D Molybdenum Vanadium Carbides \u2013 Solid Solution MXenes,\u201d Journal of Materials Chemistry A<\/em>, vol. 8, pp. 8957-8968, 2020.<\/a><\/li>\n
  56. M Han, C. E. Shuck<\/strong>, R. Rakhmanov, D. Parchment, B. Anasori, C. M. Koo, G. Friedman, and Y. Gogotsi, \u201cBeyond Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em>: MXenes for Electromagnetic Interference Shielding,\u201d ACS Nano<\/em>, vol. 14, pp. 5008-5016, 2020.<\/a><\/li>\n
  57. L. Li, X. Fu, S. Chen, S. Uzun, A. Levitt, C. E. Shuck<\/strong>, W. Han, and Y. Gogotsi, \u201cHydrophobic and Stable MXene-polymer Pressure Sensors for Wearable Electronics,\u201d ACS Applied Materials & Interfaces<\/em>, vol. 12, pp. 15362-15369, 2020.<\/a><\/li>\n
  58. J. Zhang, S. Uzun, S. Seyedin, P. Lynch, B. Akuzum, Z. Wang, S. Qin, M. Alhabeb, C. E. Shuck<\/strong>, W. Lei, E. Kumbur, W. Yang, X. Wang, G. Dion, and Y. Gogotsi, \u201cMXene Liquid Crystals and Fibers,\u201d ACS Central Science<\/em>, vol. 6, pp. 254-265, 2020.<\/a><\/li>\n
  59. C. E. Shuck<\/strong>, A. Sarycheva, M. Anayee, A. Levitt, Y. Zhu, S. Uzun, V. Balitskiy, V. Zahrodna, O. Gogotsi, and Y. Gogotsi, \u201cScalable Synthesis of Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene,\u201d Advanced Engineering Materials<\/em>, vol. 22, pp. 1901241, 2020.<\/a><\/li>\n
  60. G. Deysher, C. E. Shuck<\/strong>, N. Frey, A. Foucher, K. Maleski, A. Sarycheva, V. Shenoy, E. Stach, B. Anasori, and Y. Gogotsi, \u201cSynthesis of Mo4<\/sub>VAlC4<\/sub> MAX Phase and Two-Dimensional Mo4<\/sub>VC4<\/sub> MXene with Five Atomic Layers of Transition Metals,\u201d ACS Nano<\/em>, vol. 14, pp. 204-217, 2020.<\/a><\/li>\n
  61. W. Bao*, C. E. Shuck<\/strong>*, W. Zhang, X. Guo, Y. Gogotsi, and G. Wang, \u201cBoosting Performance of Na-S Batteries Using Sulfur-Doped Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene Nanosheets with a Strong Affinity to Sodium Polysulfides,\u201d ACS Nano<\/em>, vol. 13, pp. 11500-11509, 2019.<\/a><\/li>\n
  62. C. E. Shuck<\/strong>, M. Han, K. Maleski, K. Hantanasirisakul, S. J. Kim, J. Choi, W. Reil, and Y. Gogotsi, “Effect of Ti3<\/sub>AlC2<\/sub> MAX Phase on Structure and Properties of Resultant Ti3<\/sub>C2<\/sub>Tx<\/sub><\/em> MXene,” ACS Applied Nano Materials<\/em>, vol. 2, pp. 3368-3376, 2019.<\/a><\/li>\n
  63. J. Li, L. An, H. Li, J. Sun, C. Shuck<\/strong>, X. Wang, Y. Shao, Y. Li, Q. Zhang, and H. Wang, \u201cTunable Stable Operating Potential Window for High-Voltage Aqueous Supercapacitors,\u201d Nano Energy<\/em>, vol. 63, pp. 103848, 2019.<\/a><\/li>\n
  64. J. M. Pauls, C. E. Shuck<\/strong>, A. Gen\u00e7, S. Rouvimov, and A.S. Mukasyan, “In-situ Transmission Electron Microscopy Determination of Solid-State Diffusion Kinetics in the Aluminum-Nickel System,” Journal of Solid State Chemistry<\/em>, vol. 276, pp. 114-121, 2019.<\/a><\/li>\n
  65. M. Seredych, C. E. Shuck<\/strong>, D. Pinto, M. Alhabeb, E. Precetti, G. Deysher, B. Anasori, N. Kurra, and Y. Gogotsi, “High-Temperature Behavior and Surface Chemistry of Carbide MXenes Studied by Thermal Analysis,” Chemistry of Materials<\/em>, vol. 31, pp. 3324-3332, 2019.<\/a><\/li>\n
  66. L. Yang, Y. Dall’Agnese, K. Hantanasirisakul, C. E. Shuck<\/strong>, K. Maleski, M. Alhabeb, G. Chen, Y. Gao, Y. Sanehira, A. K. Jena, L. Shen, C. Dall’Agnese, X.-F. Wang, and Y. Gogotsi, and T. Miyasaka, “SnO2<\/sub>\u2013Ti3<\/sub>C2<\/sub> MXene Electron Transport Layers for Perovskite Solar Cells,” Journal of Materials Chemistry A<\/em>, vol. 7, pp. 5635-5642, 2019.<\/a><\/li>\n
  67. P. Salles, D. Pinto, K. Hantanasirisakul, K. Maleski, C. E. Shuck<\/strong>, and Y. Gogotsi, “Electrochromic Effect in Titanium Carbide MXene Thin Films Produced by Dip\u2010Coating,” Advanced Functional Materials<\/em>, vol. 29, pp. 1809223, 2019.<\/a><\/li>\n
  68. Q. Shan, X. Mu, M. Alhabeb, C. E. Shuck<\/strong>, D. Pang, X. Zhao, X. F. Chu, Y. Wei, F. Du, G. Chen, Y. Gogotsi, Y. Gao, and Y. Dall\u2019Agnese, “Two-Dimensional Vanadium Carbide (V2<\/sub>C) MXene as Electrode for Supercapacitors with Aqueous Electrolytes,” Electrochemistry Communications<\/em>, vol. 96, pp. 103-107, 2018.<\/a><\/li>\n
  69. K. Manukyan, J. Pauls, C. Shuck<\/strong>, S. Rouvimov, A. Mukasyan, K. Nazaretyan, H. Chatilyan, and S. Kharatyan, “Kinetics and Mechanism of Ignition in Reactive Al\/Ni Nanostructured Materials,” The Journal of Physical Chemistry C<\/em>, vol. 122, pp. 27082-27092, 2018.<\/a><\/li>\n
  70. A. S. Mukasyan, C. E. Shuck<\/strong>, J. M. Pauls, K. V. Manukyan, D. O. Moskovskikh, and A. S. Rogachev, “The Solid Flame Phenomenon: A Novel Perspective,” Advanced Engineering Materials<\/em>, vol. 20, pp. 1701065, 2018.<\/a><\/li>\n
  71. J. M. Pauls, C. E. Shuck<\/strong>, and A. S. Mukasyan, “Micro-Heterogeneous Regimes for Gasless Combustion of Composite Materials,” Combustion Science and Technology<\/em>, vol. 190, pp. 893-908, 2018.<\/a><\/li>\n
  72. A. S. Mukasyan and C. E. Shuck<\/strong>, “Kinetics of SHS Reactions: A Review,” International Journal of Self-Propagating High-Temperature Synthesis<\/em>, vol. 26, pp. 145-165, 2018.<\/a><\/li>\n
  73. K. V. Manukyan, A. V. Yeghishyan, C. E. Shuck<\/strong>, D. O. Moskovskikh, S. Rouvimov, E. E. Wolf, and A. S. Mukasyan, “Mesoporous Metal-Silica Materials: Synthesis, Catalytic and Thermal Properties,” Microporous and Mesoporous Materials<\/em>, vol. 257, pp. 175-184, 2018.<\/a><\/li>\n
  74. A. Salvadori, S. Lee, A. Gillman, K. Matou\u0161, C. Shuck<\/strong>, A. Mukasyan, M.T. Beason, I.E. Gunduz, and S.F. Son, “Numerical and Experimental Analysis of the Young\u2019s Modulus of Cold Compacted Powder Materials,” Mechanics of Materials<\/em>, vol. 112, pp. 56-70, 2017.<\/a><\/li>\n
  75. C. E. Shuck<\/strong> and A. S. Mukasyan “Reactive Ni\/Al Nanocomposites: Structural Characteristics and Activation Energy,” The Journal of Physical Chemistry A<\/em>, vol. 121, no. 6, pp. 1175\u20131181, 2017.<\/a><\/li>\n
  76. C. E. Shuck<\/strong>,\u00a0J. M.\u00a0Pauls, and A. S. Mukasyan “Ni\/Al Energetic Nanocomposites and the Solid Flame Phenomenon,” The Journal of Physical Chemistry C<\/em>, vol. 120, no. 47, pp. 27066\u201327078, 2016.<\/a><\/li>\n
  77. C. E. Shuck<\/strong>,\u00a0M.\u00a0Frazee, A. Gillman, M. T. Beason, I. E. Gunduz, K. Matou\u0161, R. Winarski, and A. S. Mukasyan “X-ray Nanotomography and Focused-Ion-Beam Sectioning for Quantitative Three-Dimensional Analysis of Nanocomposites,” Journal of Synchrotron Radiation<\/em>, vol. 23, no. 4 2016<\/a><\/li>\n
  78. K. V. Manukyan, C. E\u00a0Shuck<\/strong>, M. J. Cherukara, S. Rouvimov, D. Y. Kovalev, A. Strachan, and A. S. Mukasyan “Exothermic Self-Sustained Waves with Amorphous Nickel,”\u00a0Journal of Physical Chemistry C<\/em>, vol. 120, no. 10, pp. 5827-5838, 2016<\/a><\/li>\n
  79. C. E. Shuck<\/strong>,\u00a0K. V\u00a0Manukyan, S. Rouvimov, A. S. Rogachev, and A. S. Mukasyan, “Solid flame: Experimental Validation,”\u00a0Combustion and Flame, Combustion and Flame<\/em>, vol. 163, pp. 487-493, 2016.<\/a><\/li>\n
  80. K. V. Manukyan, A. G. Avetisyan, C. E. Shuck<\/strong>, H. A. Chatilyan, S. Rouvimov, S. L. Kharatyan, and A. S. Mukasyan, \u201cNickel Oxide Reduction by Hydrogen: Kinetics and Structural Transformations,\u201d The Journal of Physical Chemistry C<\/em>, vol. 119, pp. 16131\u201316138, 2015.\u00a0<\/a><\/li>\n
  81. K. V. Manukyan, W. Tan, R. J. deBoer, E. J. Stech, A. Aprahamian, M. Wiescher, S. Rouvimov, K. R. Overdeep, C. E. Shuck<\/strong>, T. P. Weihs, and A. S. Mukasyan, \u201cIrradiation-Enhanced Reactivity of Multilayer Al\/Ni Nanomaterials,\u201d ACS Applied Materials and Interfaces<\/em>, vol. 7, no. 21, pp. 11272\u201311279, 2015.<\/a><\/li>\n
  82. K. V. Manukyan, C. E. Shuck<\/strong>, A. S. Rogachev, and A. S. Mukasyan, \u201cPreparation and Reactivity of Gasless Nanostructured Energetic Materials,\u201d Journal of Visualized Experiments<\/em>, vol. 98, 2015.\u00a0<\/a><\/li>\n<\/ol>\n

     <\/p>\n","protected":false},"excerpt":{"rendered":"

    M. H. M. Facure, G. Gahramanova, D. Zhang, T. Zhang, C. E. Shuck, L. A. Mercante, D. S. Correa, and Y. Gogotsi, “All-MXene electronic tongue for neurotransmitters detection,” Biosensors and … Read More<\/a><\/p>\n","protected":false},"author":21,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"class_list":["post-363","page","type-page","status-publish","hentry"],"acf":[],"yoast_head":"\nPublications - Christopher Shuck Lab<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/sites.rutgers.edu\/christopher-shuck\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Christopher Shuck Lab\" \/>\n<meta property=\"og:description\" content=\"M. H. 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