Publications

R. Andris, P. Ridley, B.W. Byles, D.A. Cullen, K.L. More, Ekaterina Pomerantseva, Synthesis strategies toward improved ordering of [MnO6] octahedra in tunnel structured 2×3 and 2×4 MnO2. Scripta Materialia 195 (2021) 113713.

B.W. Byles, Ekaterina Pomerantseva, Effect of 1D diffusion channel size and ionic content on Li+ ion and Na+ ion diffusion in tunnel manganese oxides. Materialia 15 (2021) 101013.

 

2020

Y. Yuan, W. Yao, B.W. Byles, E. Pomerantseva, K. Amine, R. Shahbazian-Yassar, J. Lu, Revealing the atomic structures of exposed lateral surfaces for polymorphic manganese dioxide nanowires. Small Structures, https://doi.org/10.1002/sstr.202000091.

P. Ridley, C. Gallano, R. Andris, C.E. Shuck, Y. Gogotsi, E. Pomerantseva, MXene-derived bilayered vanadium oxides with enhanced stability in Li-ion batteries. ACS Applied Energy Materials 3 (2020) 10892-10901.

S. Buczek, M.L. Barsoum, S. Uzun, N. Kurra, R. Andris, E. Pomerantseva, K.A. Mahmoud, Y. Gogotsi, Rational design of titanium carbide MXene electrode architectures for hybrid capacitive deionization. Energy & Environmental Materials 3 (2020) 398-404.

S. Mukherjee, C.D. Quilty, S. Yao, C.A. Stackhouse, L. Wang, K.J. Takeuchi, E.S. Takeuchi, F. Wang, A.C. Marschilok, E. Pomerantseva, The effect of chemically preintercalated alkali ions on the structure of layered titanates and their electrochemistry in aqueous energy storage systems. Journal of Materials Chemistry A 8 (2020) 18220-18231.

M. Clites, R. Andris, D.A. Cullen, K.L. More, E. Pomerantseva, Improving electronic conductivity of layered oxides through the formation of two-dimensional heterointerface for intercalation batteries. ACS Applied Energy Materials 3 (2020) 3835-3844.

M. Clites, J.L. Hart, M.L. Taheri, E. Pomerantseva, Annealing-assisted enhancement of electrochemical stability of Na-preintercalated bilayered vanadium oxide electrodes in Na-ion batteries. ACS Applied Energy Materials 3 (2020) 1063-1075

 

2019

E. Pomerantseva, F. Bonaccorso, X. Feng, Y. Cui, Y. Gogotsi, Energy storage: the future enabled by nanomaterials. Science 366 (2019) eaan8285.

H. Avireddy, B.W. Byles, D. Pinto, J.M.D. Galindo, J.J. Biendicho, X. Wang, C. Flox, O. Crosnier, T. Brousse, E. Pomerantseva, J.R. Morante, Y. Gogotsi, Stable high-voltage aqueous pseudocapacitive energy storage device with slow self-discharge. Nano Energy 64 (2019) 103961.

M. Maksud, M. Barua, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, Tunable nanomechanical performance regimes in ceramic nanowires. Nanotechnology 30 (2019) 47LT02.

P.J. West, B.W. Byles and E. Pomerantseva, “Creation of controllable cationic and anionic defects in tunnel manganese oxide nanowires for enhanced oxygen evolution reaction.” Polyhedron (2019, https://doi.org/10.1016/j.poly.2019.06.050).

Y. Yuan, K. He, B.W. Byles, C. Liu, K. Amine, J. Lu, E. Pomerantseva and R. Shahbazian-Yassar, “Deciphering the atomic patterns leading to MnO2 polymorphism.” Chem (2019) 5, 1793-1805.

Y. Yuan, C. Liu, B.W. Byles, W. Yao, B. Song, M. Cheng, Z. Huang, K. Amine, E. Pomerantseva, R. Shahbazian-Yassar and J. Lu, “Ordering heterogeneity of [MnO6] octahedra in tunnel-structured MnO2 and its influence on ion storage.” Joule (2019) 3, 471-484.

L. Agartan, B. Hayes-Oberst, B.W. Byles, B. Akuzum, E. Pomerantseva and E.C. Kumbur, “Influence of operating conditions and cathode parameters on desalination performance of hybrid CDI systems.” Desalination (2019) 452, 1-8.

B.W. Byles, M. Clites, D.A. Cullen, K.L. More and E. Pomerantseva, “Improved electrochemical cycling stability of intercalation battery electrodes via control of material morphology.” Ionics (2019) 25, 493-502.

 

2018

S.K. Singh, N. Aryaan, M.R.A. Shikder, B.W. Byles, E. Pomerantseva and A. Subramanian “A 3D nanoelectrokinetic model for predictive assembly of nanowire arrays using floating electrode dielectrophoresis.” Nanotechnology (2018) 30, 025301.

B.W. Byles, B. Hayes-Oberst and E. Pomerantseva, “Ion removal performance, structural/compositional dynamics, and electrochemical stability of layered manganese oxide electrodes in hybrid capacitive deionization.” ACS Applied Materials & Interfaces (2018) 10, 32313-32322.

Y. Zheng, Q. Pan, M. Clites, B.W. Byles, E. Pomerantseva and C.Y. Li, “High capacity all-solid-state sodium metal battery with hybrid polymer electrolytes.” Advanced Energy Materials (2018) 8, 1801885.

C.E. Ren, M. Alhabeb, B.W. Byles, M.-Q. Zhao, B. Anasori, E. Pomerantseva, K.A. Mahmoud and Y. Gogotsi, “Voltage-gated ions rejection through 2D MXene Ti3C2Tx membranes.” ACS Applied Nano Materials (2018) 1, 3644-3652.

D. Zhao, M. Clites, G. Ying, S. Kota, J. Wang, V. Natu, X. Wang, E. Pomerantseva, M. Cao and M. Barsoum, “Alkali-induced crumpling of Ti3C2 (MXene) to form 3D porous networks.” Chemical Communications (2018) 54, 4533-4536.

N.C Frey, B.W. Byles, H. Kumar, D. Er, E. Pomerantseva and V.B. Shenoy, “Prediction of optimal crystal water concentration for maximized performance in tunnel manganese oxide electrodes.” Physical Chemistry Chemical Physics (2018) 20, 9480-9487.

M. Clites, J.L. Hart, M.L. Taheri and  E. Pomerantseva, “Chemically preintercalated bilayered KxV2O5 as a high-performing cathode material for K-ion batteries.” ACS Energy Letters (2018) 3, 562-567.

V. Natu, M. Clites, E. Pomerantseva and M. Barsoum, “Mesoporous MXene powders synthesized by acid induced crumpling and their use as Na-ion battery anodes.” Materials Research Letters (2018) 6, 230-235.

M. Clites and E. Pomerantseva, “Bilayered vanadium oxides by chemical pre-intercalation of alkali and alkali-earth ions as battery electrodes.” Energy Storage Materials (2018) 11, 30-37.

B.W. Byles, D.A. Cullen, K.L. More and E. Pomerantseva, “Tunnel structured manganese oxide nanowires as redox active electrodes for hybrid capacitive deionization.” Nano Energy (2018) 44, 476-488.

 

2017

E. Pomerantseva and Y. Gogotsi, “Two-dimensional heterostructures for energy storage.” Nature Energy (2017) 2, 17089.

B. Byles and E. Pomerantseva, “Reversible Intercalation of Lithium and Sodium Ions into Layered and Tunnel Structured Manganese Oxides: One-Dimensional versus Two- Dimensional Diffusion.” Proc SPIE 10349 (2017) 103490G.

M. Clites, and E. Pomerantseva, “The ion dependent change in the mechanism of charge storage of chemically preintercalated bilayered vanadium oxide electrodes.” Proc SPIE 10349 (2017) 103490H.

N.K.R. Palapati, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, “Electrochemically-correlated measurement of electronic transport in battery nanoelectrodes using single nanowire devices.” Proceedings of the 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. (2017) 143-146.

M. Clites, B.W. Byles, and E. Pomerantseva, “Bilayered vanadium oxide as the host material for reversible beyond lithium ion intercalation.” Advanced Materials Letters. (2017) 8(6), 679-688.

E. Pomerantseva, C. Resini, K. Kovnir, and Y.V Kolen’ko, “Emerging nanostructured electrode materials for water electrolysis and rechargeable beyond Li-ion batteries.” Advances in Physics: X (2017) 2(2), 211-253.

 

2016

B. Byles and E. Pomerantseva, “Effect of Manganese Oxide Crystal Tunnel Size on Li-ion and Na-ion Battery Performance.” Proc SPIE 9924 (2016) 992406- 992408.

M. Clites, and E. Pomerantseva, “Stabilization of battery electrodes through chemical pre-intercalation of layered materials.” Proc SPIE 9924 (2016) 992405-992405.

X. Xie, M.Q. Zhao, B. Anasori, K. Maleski, C.E. Ren, J. Li, B.W. Byles, E. Pomerantseva, G. Wang, and Y. Gogotsi, “Porous heterostructured MXene/carbon nanotube composite paper with high volumetric capacity for sodium-based energy storage devices.” Nano Energy (2016) 26, 513-523.

A. Byeon, A.M. Glushenkov, B. Anasori, P. Urbankowski, J. Li, B.W. Byles, B. Blake, K.L. Van Aken, S. Kota, E. Pomerantseva, J.W. Lee, Y. Chen, Y. Gogotsi, “Lithium-ion capacitors with 2D Nb2CTx (MXene)-carbon nanotube electrodes.” J. Power Sources (2016) 326, 686-694.

M. Clites, B.W. Byles, and E. Pomerantseva, “Effect of aging and hydrothermal treatment on electrochemical performance of chemically pre- intercalated Na–V–O nanowires for Na-ion batteries.” J. Mater. Chem. A (2016) 4, 7754-7761.

B.W. Byles, N. K. R. Palapati, A. Subramanian, and E. Pomerantseva, “The role of electronic and ionic conductivities in the rate performance of tunnel structured manganese oxides in Li-ion batteries.” APL Materials (2016) 4, 046108.

 

2015

B.W. Byles, P. West, D.A. Cullen, K.L. More, and E. Pomerantseva, “Todorokite-Type Manganese Oxide Nanowires as an Intercalation Cathode for Li-ion and Na-ion Batteries.” RSC Advances (2015) 5, 106265.

B. Byles, M. Clites, and E. Pomerantseva, “Chemical modification approaches for improved performance of Na-ion battery electrodes.” Proc SPIE 9553 (2015) 955313-955310.

M. Maksud, N.K.R. Palapati, B.W. Byles, E. Pomerantseva, Y. Liu, and A. Subramanian, “Dependence of Young’s modulus on the sodium content within the structural tunnels of a one-dimensional Na-ion battery cathode.” Nanoscale (2015) 7(42), 17642-17648.

N.K.R. Palapati, E. Pomerantseva, and A. Subramanian, “Single nanowire manipulation within dielectrophoretic force fields in the sub-crossover frequency regime.” Nanoscale (2015) 7(7), 3109-3116.

 

2014

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.

Y. Yuan, W. Yao, B.W. Byles, E. Pomerantseva, K. Amine, R. Shahbazian-Yassar, J. Lu, Revealing the atomic structures of exposed lateral surfaces for polymorphic manganese dioxide nanowires. Small Structures, https://doi.org/10.1002/sstr.202000091.

P. Ridley, C. Gallano, R. Andris, C.E. Shuck, Y. Gogotsi, E. Pomerantseva, MXene-derived bilayered vanadium oxides with enhanced stability in Li-ion batteries. ACS Applied Energy Materials 3 (2020) 10892-10901.

S. Buczek, M.L. Barsoum, S. Uzun, N. Kurra, R. Andris, E. Pomerantseva, K.A. Mahmoud, Y. Gogotsi, Rational design of titanium carbide MXene electrode architectures for hybrid capacitive deionization. Energy & Environmental Materials 3 (2020) 398-404.

S. Mukherjee, C.D. Quilty, S. Yao, C.A. Stackhouse, L. Wang, K.J. Takeuchi, E.S. Takeuchi, F. Wang, A.C. Marschilok, E. Pomerantseva, The effect of chemically preintercalated alkali ions on the structure of layered titanates and their electrochemistry in aqueous energy storage systems. Journal of Materials Chemistry A 8 (2020) 18220-18231.

M. Clites, R. Andris, D.A. Cullen, K.L. More, E. Pomerantseva, Improving electronic conductivity of layered oxides through the formation of two-dimensional heterointerface for intercalation batteries. ACS Applied Energy Materials 3 (2020) 3835-3844.

M. Clites, J.L. Hart, M.L. Taheri, E. Pomerantseva, Annealing-assisted enhancement of electrochemical stability of Na-preintercalated bilayered vanadium oxide electrodes in Na-ion batteries. ACS Applied Energy Materials 3 (2020) 1063-1075

 

2019

E. Pomerantseva, F. Bonaccorso, X. Feng, Y. Cui, Y. Gogotsi, Energy storage: the future enabled by nanomaterials. Science 366 (2019) eaan8285.

H. Avireddy, B.W. Byles, D. Pinto, J.M.D. Galindo, J.J. Biendicho, X. Wang, C. Flox, O. Crosnier, T. Brousse, E. Pomerantseva, J.R. Morante, Y. Gogotsi, Stable high-voltage aqueous pseudocapacitive energy storage device with slow self-discharge. Nano Energy 64 (2019) 103961.

M. Maksud, M. Barua, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, Tunable nanomechanical performance regimes in ceramic nanowires. Nanotechnology 30 (2019) 47LT02.

P.J. West, B.W. Byles and E. Pomerantseva, “Creation of controllable cationic and anionic defects in tunnel manganese oxide nanowires for enhanced oxygen evolution reaction.” Polyhedron (2019, https://doi.org/10.1016/j.poly.2019.06.050).

Y. Yuan, K. He, B.W. Byles, C. Liu, K. Amine, J. Lu, E. Pomerantseva and R. Shahbazian-Yassar, “Deciphering the atomic patterns leading to MnO2 polymorphism.” Chem (2019) 5, 1793-1805.

Y. Yuan, C. Liu, B.W. Byles, W. Yao, B. Song, M. Cheng, Z. Huang, K. Amine, E. Pomerantseva, R. Shahbazian-Yassar and J. Lu, “Ordering heterogeneity of [MnO6] octahedra in tunnel-structured MnO2 and its influence on ion storage.” Joule (2019) 3, 471-484.

L. Agartan, B. Hayes-Oberst, B.W. Byles, B. Akuzum, E. Pomerantseva and E.C. Kumbur, “Influence of operating conditions and cathode parameters on desalination performance of hybrid CDI systems.” Desalination (2019) 452, 1-8.

B.W. Byles, M. Clites, D.A. Cullen, K.L. More and E. Pomerantseva, “Improved electrochemical cycling stability of intercalation battery electrodes via control of material morphology.” Ionics (2019) 25, 493-502.

 

2018

S.K. Singh, N. Aryaan, M.R.A. Shikder, B.W. Byles, E. Pomerantseva and A. Subramanian “A 3D nanoelectrokinetic model for predictive assembly of nanowire arrays using floating electrode dielectrophoresis.” Nanotechnology (2018) 30, 025301.

B.W. Byles, B. Hayes-Oberst and E. Pomerantseva, “Ion removal performance, structural/compositional dynamics, and electrochemical stability of layered manganese oxide electrodes in hybrid capacitive deionization.” ACS Applied Materials & Interfaces (2018) 10, 32313-32322.

Y. Zheng, Q. Pan, M. Clites, B.W. Byles, E. Pomerantseva and C.Y. Li, “High capacity all-solid-state sodium metal battery with hybrid polymer electrolytes.” Advanced Energy Materials (2018) 8, 1801885.

C.E. Ren, M. Alhabeb, B.W. Byles, M.-Q. Zhao, B. Anasori, E. Pomerantseva, K.A. Mahmoud and Y. Gogotsi, “Voltage-gated ions rejection through 2D MXene Ti3C2Tx membranes.” ACS Applied Nano Materials (2018) 1, 3644-3652.

D. Zhao, M. Clites, G. Ying, S. Kota, J. Wang, V. Natu, X. Wang, E. Pomerantseva, M. Cao and M. Barsoum, “Alkali-induced crumpling of Ti3C2 (MXene) to form 3D porous networks.” Chemical Communications (2018) 54, 4533-4536.

N.C Frey, B.W. Byles, H. Kumar, D. Er, E. Pomerantseva and V.B. Shenoy, “Prediction of optimal crystal water concentration for maximized performance in tunnel manganese oxide electrodes.” Physical Chemistry Chemical Physics (2018) 20, 9480-9487.

M. Clites, J.L. Hart, M.L. Taheri and  E. Pomerantseva, “Chemically preintercalated bilayered KxV2O5 as a high-performing cathode material for K-ion batteries.” ACS Energy Letters (2018) 3, 562-567.

V. Natu, M. Clites, E. Pomerantseva and M. Barsoum, “Mesoporous MXene powders synthesized by acid induced crumpling and their use as Na-ion battery anodes.” Materials Research Letters (2018) 6, 230-235.

M. Clites and E. Pomerantseva, “Bilayered vanadium oxides by chemical pre-intercalation of alkali and alkali-earth ions as battery electrodes.” Energy Storage Materials (2018) 11, 30-37.

B.W. Byles, D.A. Cullen, K.L. More and E. Pomerantseva, “Tunnel structured manganese oxide nanowires as redox active electrodes for hybrid capacitive deionization.” Nano Energy (2018) 44, 476-488.

 

2017

E. Pomerantseva and Y. Gogotsi, “Two-dimensional heterostructures for energy storage.” Nature Energy (2017) 2, 17089.

B. Byles and E. Pomerantseva, “Reversible Intercalation of Lithium and Sodium Ions into Layered and Tunnel Structured Manganese Oxides: One-Dimensional versus Two- Dimensional Diffusion.” Proc SPIE 10349 (2017) 103490G.

M. Clites, and E. Pomerantseva, “The ion dependent change in the mechanism of charge storage of chemically preintercalated bilayered vanadium oxide electrodes.” Proc SPIE 10349 (2017) 103490H.

N.K.R. Palapati, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, “Electrochemically-correlated measurement of electronic transport in battery nanoelectrodes using single nanowire devices.” Proceedings of the 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. (2017) 143-146.

M. Clites, B.W. Byles, and E. Pomerantseva, “Bilayered vanadium oxide as the host material for reversible beyond lithium ion intercalation.” Advanced Materials Letters. (2017) 8(6), 679-688.

E. Pomerantseva, C. Resini, K. Kovnir, and Y.V Kolen’ko, “Emerging nanostructured electrode materials for water electrolysis and rechargeable beyond Li-ion batteries.” Advances in Physics: X (2017) 2(2), 211-253.

 

2016

B. Byles and E. Pomerantseva, “Effect of Manganese Oxide Crystal Tunnel Size on Li-ion and Na-ion Battery Performance.” Proc SPIE 9924 (2016) 992406- 992408.

M. Clites, and E. Pomerantseva, “Stabilization of battery electrodes through chemical pre-intercalation of layered materials.” Proc SPIE 9924 (2016) 992405-992405.

X. Xie, M.Q. Zhao, B. Anasori, K. Maleski, C.E. Ren, J. Li, B.W. Byles, E. Pomerantseva, G. Wang, and Y. Gogotsi, “Porous heterostructured MXene/carbon nanotube composite paper with high volumetric capacity for sodium-based energy storage devices.” Nano Energy (2016) 26, 513-523.

A. Byeon, A.M. Glushenkov, B. Anasori, P. Urbankowski, J. Li, B.W. Byles, B. Blake, K.L. Van Aken, S. Kota, E. Pomerantseva, J.W. Lee, Y. Chen, Y. Gogotsi, “Lithium-ion capacitors with 2D Nb2CTx (MXene)-carbon nanotube electrodes.” J. Power Sources (2016) 326, 686-694.

M. Clites, B.W. Byles, and E. Pomerantseva, “Effect of aging and hydrothermal treatment on electrochemical performance of chemically pre- intercalated Na–V–O nanowires for Na-ion batteries.” J. Mater. Chem. A (2016) 4, 7754-7761.

B.W. Byles, N. K. R. Palapati, A. Subramanian, and E. Pomerantseva, “The role of electronic and ionic conductivities in the rate performance of tunnel structured manganese oxides in Li-ion batteries.” APL Materials (2016) 4, 046108.

 

2015

B.W. Byles, P. West, D.A. Cullen, K.L. More, and E. Pomerantseva, “Todorokite-Type Manganese Oxide Nanowires as an Intercalation Cathode for Li-ion and Na-ion Batteries.” RSC Advances (2015) 5, 106265.

B. Byles, M. Clites, and E. Pomerantseva, “Chemical modification approaches for improved performance of Na-ion battery electrodes.” Proc SPIE 9553 (2015) 955313-955310.

M. Maksud, N.K.R. Palapati, B.W. Byles, E. Pomerantseva, Y. Liu, and A. Subramanian, “Dependence of Young’s modulus on the sodium content within the structural tunnels of a one-dimensional Na-ion battery cathode.” Nanoscale (2015) 7(42), 17642-17648.

N.K.R. Palapati, E. Pomerantseva, and A. Subramanian, “Single nanowire manipulation within dielectrophoretic force fields in the sub-crossover frequency regime.” Nanoscale (2015) 7(7), 3109-3116.

 

2014

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.

E. Pomerantseva, F. Bonaccorso, X. Feng, Y. Cui, Y. Gogotsi, Energy storage: the future enabled by nanomaterials. Science 366 (2019) eaan8285.

H. Avireddy, B.W. Byles, D. Pinto, J.M.D. Galindo, J.J. Biendicho, X. Wang, C. Flox, O. Crosnier, T. Brousse, E. Pomerantseva, J.R. Morante, Y. Gogotsi, Stable high-voltage aqueous pseudocapacitive energy storage device with slow self-discharge. Nano Energy 64 (2019) 103961.

M. Maksud, M. Barua, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, Tunable nanomechanical performance regimes in ceramic nanowires. Nanotechnology 30 (2019) 47LT02.

P.J. West, B.W. Byles and E. Pomerantseva, “Creation of controllable cationic and anionic defects in tunnel manganese oxide nanowires for enhanced oxygen evolution reaction.” Polyhedron (2019, https://doi.org/10.1016/j.poly.2019.06.050).

Y. Yuan, K. He, B.W. Byles, C. Liu, K. Amine, J. Lu, E. Pomerantseva and R. Shahbazian-Yassar, “Deciphering the atomic patterns leading to MnO2 polymorphism.” Chem (2019) 5, 1793-1805.

Y. Yuan, C. Liu, B.W. Byles, W. Yao, B. Song, M. Cheng, Z. Huang, K. Amine, E. Pomerantseva, R. Shahbazian-Yassar and J. Lu, “Ordering heterogeneity of [MnO6] octahedra in tunnel-structured MnO2 and its influence on ion storage.” Joule (2019) 3, 471-484.

L. Agartan, B. Hayes-Oberst, B.W. Byles, B. Akuzum, E. Pomerantseva and E.C. Kumbur, “Influence of operating conditions and cathode parameters on desalination performance of hybrid CDI systems.” Desalination (2019) 452, 1-8.

B.W. Byles, M. Clites, D.A. Cullen, K.L. More and E. Pomerantseva, “Improved electrochemical cycling stability of intercalation battery electrodes via control of material morphology.” Ionics (2019) 25, 493-502.

 

2018

S.K. Singh, N. Aryaan, M.R.A. Shikder, B.W. Byles, E. Pomerantseva and A. Subramanian “A 3D nanoelectrokinetic model for predictive assembly of nanowire arrays using floating electrode dielectrophoresis.” Nanotechnology (2018) 30, 025301.

B.W. Byles, B. Hayes-Oberst and E. Pomerantseva, “Ion removal performance, structural/compositional dynamics, and electrochemical stability of layered manganese oxide electrodes in hybrid capacitive deionization.” ACS Applied Materials & Interfaces (2018) 10, 32313-32322.

Y. Zheng, Q. Pan, M. Clites, B.W. Byles, E. Pomerantseva and C.Y. Li, “High capacity all-solid-state sodium metal battery with hybrid polymer electrolytes.” Advanced Energy Materials (2018) 8, 1801885.

C.E. Ren, M. Alhabeb, B.W. Byles, M.-Q. Zhao, B. Anasori, E. Pomerantseva, K.A. Mahmoud and Y. Gogotsi, “Voltage-gated ions rejection through 2D MXene Ti3C2Tx membranes.” ACS Applied Nano Materials (2018) 1, 3644-3652.

D. Zhao, M. Clites, G. Ying, S. Kota, J. Wang, V. Natu, X. Wang, E. Pomerantseva, M. Cao and M. Barsoum, “Alkali-induced crumpling of Ti3C2 (MXene) to form 3D porous networks.” Chemical Communications (2018) 54, 4533-4536.

N.C Frey, B.W. Byles, H. Kumar, D. Er, E. Pomerantseva and V.B. Shenoy, “Prediction of optimal crystal water concentration for maximized performance in tunnel manganese oxide electrodes.” Physical Chemistry Chemical Physics (2018) 20, 9480-9487.

M. Clites, J.L. Hart, M.L. Taheri and  E. Pomerantseva, “Chemically preintercalated bilayered KxV2O5 as a high-performing cathode material for K-ion batteries.” ACS Energy Letters (2018) 3, 562-567.

V. Natu, M. Clites, E. Pomerantseva and M. Barsoum, “Mesoporous MXene powders synthesized by acid induced crumpling and their use as Na-ion battery anodes.” Materials Research Letters (2018) 6, 230-235.

M. Clites and E. Pomerantseva, “Bilayered vanadium oxides by chemical pre-intercalation of alkali and alkali-earth ions as battery electrodes.” Energy Storage Materials (2018) 11, 30-37.

B.W. Byles, D.A. Cullen, K.L. More and E. Pomerantseva, “Tunnel structured manganese oxide nanowires as redox active electrodes for hybrid capacitive deionization.” Nano Energy (2018) 44, 476-488.

 

2017

E. Pomerantseva and Y. Gogotsi, “Two-dimensional heterostructures for energy storage.” Nature Energy (2017) 2, 17089.

B. Byles and E. Pomerantseva, “Reversible Intercalation of Lithium and Sodium Ions into Layered and Tunnel Structured Manganese Oxides: One-Dimensional versus Two- Dimensional Diffusion.” Proc SPIE 10349 (2017) 103490G.

M. Clites, and E. Pomerantseva, “The ion dependent change in the mechanism of charge storage of chemically preintercalated bilayered vanadium oxide electrodes.” Proc SPIE 10349 (2017) 103490H.

N.K.R. Palapati, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, “Electrochemically-correlated measurement of electronic transport in battery nanoelectrodes using single nanowire devices.” Proceedings of the 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. (2017) 143-146.

M. Clites, B.W. Byles, and E. Pomerantseva, “Bilayered vanadium oxide as the host material for reversible beyond lithium ion intercalation.” Advanced Materials Letters. (2017) 8(6), 679-688.

E. Pomerantseva, C. Resini, K. Kovnir, and Y.V Kolen’ko, “Emerging nanostructured electrode materials for water electrolysis and rechargeable beyond Li-ion batteries.” Advances in Physics: X (2017) 2(2), 211-253.

 

2016

B. Byles and E. Pomerantseva, “Effect of Manganese Oxide Crystal Tunnel Size on Li-ion and Na-ion Battery Performance.” Proc SPIE 9924 (2016) 992406- 992408.

M. Clites, and E. Pomerantseva, “Stabilization of battery electrodes through chemical pre-intercalation of layered materials.” Proc SPIE 9924 (2016) 992405-992405.

X. Xie, M.Q. Zhao, B. Anasori, K. Maleski, C.E. Ren, J. Li, B.W. Byles, E. Pomerantseva, G. Wang, and Y. Gogotsi, “Porous heterostructured MXene/carbon nanotube composite paper with high volumetric capacity for sodium-based energy storage devices.” Nano Energy (2016) 26, 513-523.

A. Byeon, A.M. Glushenkov, B. Anasori, P. Urbankowski, J. Li, B.W. Byles, B. Blake, K.L. Van Aken, S. Kota, E. Pomerantseva, J.W. Lee, Y. Chen, Y. Gogotsi, “Lithium-ion capacitors with 2D Nb2CTx (MXene)-carbon nanotube electrodes.” J. Power Sources (2016) 326, 686-694.

M. Clites, B.W. Byles, and E. Pomerantseva, “Effect of aging and hydrothermal treatment on electrochemical performance of chemically pre- intercalated Na–V–O nanowires for Na-ion batteries.” J. Mater. Chem. A (2016) 4, 7754-7761.

B.W. Byles, N. K. R. Palapati, A. Subramanian, and E. Pomerantseva, “The role of electronic and ionic conductivities in the rate performance of tunnel structured manganese oxides in Li-ion batteries.” APL Materials (2016) 4, 046108.

 

2015

B.W. Byles, P. West, D.A. Cullen, K.L. More, and E. Pomerantseva, “Todorokite-Type Manganese Oxide Nanowires as an Intercalation Cathode for Li-ion and Na-ion Batteries.” RSC Advances (2015) 5, 106265.

B. Byles, M. Clites, and E. Pomerantseva, “Chemical modification approaches for improved performance of Na-ion battery electrodes.” Proc SPIE 9553 (2015) 955313-955310.

M. Maksud, N.K.R. Palapati, B.W. Byles, E. Pomerantseva, Y. Liu, and A. Subramanian, “Dependence of Young’s modulus on the sodium content within the structural tunnels of a one-dimensional Na-ion battery cathode.” Nanoscale (2015) 7(42), 17642-17648.

N.K.R. Palapati, E. Pomerantseva, and A. Subramanian, “Single nanowire manipulation within dielectrophoretic force fields in the sub-crossover frequency regime.” Nanoscale (2015) 7(7), 3109-3116.

 

2014

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.

S.K. Singh, N. Aryaan, M.R.A. Shikder, B.W. Byles, E. Pomerantseva and A. Subramanian “A 3D nanoelectrokinetic model for predictive assembly of nanowire arrays using floating electrode dielectrophoresis.” Nanotechnology (2018) 30, 025301.

B.W. Byles, B. Hayes-Oberst and E. Pomerantseva, “Ion removal performance, structural/compositional dynamics, and electrochemical stability of layered manganese oxide electrodes in hybrid capacitive deionization.” ACS Applied Materials & Interfaces (2018) 10, 32313-32322.

Y. Zheng, Q. Pan, M. Clites, B.W. Byles, E. Pomerantseva and C.Y. Li, “High capacity all-solid-state sodium metal battery with hybrid polymer electrolytes.” Advanced Energy Materials (2018) 8, 1801885.

C.E. Ren, M. Alhabeb, B.W. Byles, M.-Q. Zhao, B. Anasori, E. Pomerantseva, K.A. Mahmoud and Y. Gogotsi, “Voltage-gated ions rejection through 2D MXene Ti3C2Tx membranes.” ACS Applied Nano Materials (2018) 1, 3644-3652.

D. Zhao, M. Clites, G. Ying, S. Kota, J. Wang, V. Natu, X. Wang, E. Pomerantseva, M. Cao and M. Barsoum, “Alkali-induced crumpling of Ti3C2 (MXene) to form 3D porous networks.” Chemical Communications (2018) 54, 4533-4536.

N.C Frey, B.W. Byles, H. Kumar, D. Er, E. Pomerantseva and V.B. Shenoy, “Prediction of optimal crystal water concentration for maximized performance in tunnel manganese oxide electrodes.” Physical Chemistry Chemical Physics (2018) 20, 9480-9487.

M. Clites, J.L. Hart, M.L. Taheri and  E. Pomerantseva, “Chemically preintercalated bilayered KxV2O5 as a high-performing cathode material for K-ion batteries.” ACS Energy Letters (2018) 3, 562-567.

V. Natu, M. Clites, E. Pomerantseva and M. Barsoum, “Mesoporous MXene powders synthesized by acid induced crumpling and their use as Na-ion battery anodes.” Materials Research Letters (2018) 6, 230-235.

M. Clites and E. Pomerantseva, “Bilayered vanadium oxides by chemical pre-intercalation of alkali and alkali-earth ions as battery electrodes.” Energy Storage Materials (2018) 11, 30-37.

B.W. Byles, D.A. Cullen, K.L. More and E. Pomerantseva, “Tunnel structured manganese oxide nanowires as redox active electrodes for hybrid capacitive deionization.” Nano Energy (2018) 44, 476-488.

 

2017

E. Pomerantseva and Y. Gogotsi, “Two-dimensional heterostructures for energy storage.” Nature Energy (2017) 2, 17089.

B. Byles and E. Pomerantseva, “Reversible Intercalation of Lithium and Sodium Ions into Layered and Tunnel Structured Manganese Oxides: One-Dimensional versus Two- Dimensional Diffusion.” Proc SPIE 10349 (2017) 103490G.

M. Clites, and E. Pomerantseva, “The ion dependent change in the mechanism of charge storage of chemically preintercalated bilayered vanadium oxide electrodes.” Proc SPIE 10349 (2017) 103490H.

N.K.R. Palapati, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, “Electrochemically-correlated measurement of electronic transport in battery nanoelectrodes using single nanowire devices.” Proceedings of the 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. (2017) 143-146.

M. Clites, B.W. Byles, and E. Pomerantseva, “Bilayered vanadium oxide as the host material for reversible beyond lithium ion intercalation.” Advanced Materials Letters. (2017) 8(6), 679-688.

E. Pomerantseva, C. Resini, K. Kovnir, and Y.V Kolen’ko, “Emerging nanostructured electrode materials for water electrolysis and rechargeable beyond Li-ion batteries.” Advances in Physics: X (2017) 2(2), 211-253.

 

2016

B. Byles and E. Pomerantseva, “Effect of Manganese Oxide Crystal Tunnel Size on Li-ion and Na-ion Battery Performance.” Proc SPIE 9924 (2016) 992406- 992408.

M. Clites, and E. Pomerantseva, “Stabilization of battery electrodes through chemical pre-intercalation of layered materials.” Proc SPIE 9924 (2016) 992405-992405.

X. Xie, M.Q. Zhao, B. Anasori, K. Maleski, C.E. Ren, J. Li, B.W. Byles, E. Pomerantseva, G. Wang, and Y. Gogotsi, “Porous heterostructured MXene/carbon nanotube composite paper with high volumetric capacity for sodium-based energy storage devices.” Nano Energy (2016) 26, 513-523.

A. Byeon, A.M. Glushenkov, B. Anasori, P. Urbankowski, J. Li, B.W. Byles, B. Blake, K.L. Van Aken, S. Kota, E. Pomerantseva, J.W. Lee, Y. Chen, Y. Gogotsi, “Lithium-ion capacitors with 2D Nb2CTx (MXene)-carbon nanotube electrodes.” J. Power Sources (2016) 326, 686-694.

M. Clites, B.W. Byles, and E. Pomerantseva, “Effect of aging and hydrothermal treatment on electrochemical performance of chemically pre- intercalated Na–V–O nanowires for Na-ion batteries.” J. Mater. Chem. A (2016) 4, 7754-7761.

B.W. Byles, N. K. R. Palapati, A. Subramanian, and E. Pomerantseva, “The role of electronic and ionic conductivities in the rate performance of tunnel structured manganese oxides in Li-ion batteries.” APL Materials (2016) 4, 046108.

 

2015

B.W. Byles, P. West, D.A. Cullen, K.L. More, and E. Pomerantseva, “Todorokite-Type Manganese Oxide Nanowires as an Intercalation Cathode for Li-ion and Na-ion Batteries.” RSC Advances (2015) 5, 106265.

B. Byles, M. Clites, and E. Pomerantseva, “Chemical modification approaches for improved performance of Na-ion battery electrodes.” Proc SPIE 9553 (2015) 955313-955310.

M. Maksud, N.K.R. Palapati, B.W. Byles, E. Pomerantseva, Y. Liu, and A. Subramanian, “Dependence of Young’s modulus on the sodium content within the structural tunnels of a one-dimensional Na-ion battery cathode.” Nanoscale (2015) 7(42), 17642-17648.

N.K.R. Palapati, E. Pomerantseva, and A. Subramanian, “Single nanowire manipulation within dielectrophoretic force fields in the sub-crossover frequency regime.” Nanoscale (2015) 7(7), 3109-3116.

 

2014

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.

E. Pomerantseva and Y. Gogotsi, “Two-dimensional heterostructures for energy storage.” Nature Energy (2017) 2, 17089.

B. Byles and E. Pomerantseva, “Reversible Intercalation of Lithium and Sodium Ions into Layered and Tunnel Structured Manganese Oxides: One-Dimensional versus Two- Dimensional Diffusion.” Proc SPIE 10349 (2017) 103490G.

M. Clites, and E. Pomerantseva, “The ion dependent change in the mechanism of charge storage of chemically preintercalated bilayered vanadium oxide electrodes.” Proc SPIE 10349 (2017) 103490H.

N.K.R. Palapati, M.R.A. Shikder, B.W. Byles, E. Pomerantseva, A. Subramanian, “Electrochemically-correlated measurement of electronic transport in battery nanoelectrodes using single nanowire devices.” Proceedings of the 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. (2017) 143-146.

M. Clites, B.W. Byles, and E. Pomerantseva, “Bilayered vanadium oxide as the host material for reversible beyond lithium ion intercalation.” Advanced Materials Letters. (2017) 8(6), 679-688.

E. Pomerantseva, C. Resini, K. Kovnir, and Y.V Kolen’ko, “Emerging nanostructured electrode materials for water electrolysis and rechargeable beyond Li-ion batteries.” Advances in Physics: X (2017) 2(2), 211-253.

 

2016

B. Byles and E. Pomerantseva, “Effect of Manganese Oxide Crystal Tunnel Size on Li-ion and Na-ion Battery Performance.” Proc SPIE 9924 (2016) 992406- 992408.

M. Clites, and E. Pomerantseva, “Stabilization of battery electrodes through chemical pre-intercalation of layered materials.” Proc SPIE 9924 (2016) 992405-992405.

X. Xie, M.Q. Zhao, B. Anasori, K. Maleski, C.E. Ren, J. Li, B.W. Byles, E. Pomerantseva, G. Wang, and Y. Gogotsi, “Porous heterostructured MXene/carbon nanotube composite paper with high volumetric capacity for sodium-based energy storage devices.” Nano Energy (2016) 26, 513-523.

A. Byeon, A.M. Glushenkov, B. Anasori, P. Urbankowski, J. Li, B.W. Byles, B. Blake, K.L. Van Aken, S. Kota, E. Pomerantseva, J.W. Lee, Y. Chen, Y. Gogotsi, “Lithium-ion capacitors with 2D Nb2CTx (MXene)-carbon nanotube electrodes.” J. Power Sources (2016) 326, 686-694.

M. Clites, B.W. Byles, and E. Pomerantseva, “Effect of aging and hydrothermal treatment on electrochemical performance of chemically pre- intercalated Na–V–O nanowires for Na-ion batteries.” J. Mater. Chem. A (2016) 4, 7754-7761.

B.W. Byles, N. K. R. Palapati, A. Subramanian, and E. Pomerantseva, “The role of electronic and ionic conductivities in the rate performance of tunnel structured manganese oxides in Li-ion batteries.” APL Materials (2016) 4, 046108.

 

2015

B.W. Byles, P. West, D.A. Cullen, K.L. More, and E. Pomerantseva, “Todorokite-Type Manganese Oxide Nanowires as an Intercalation Cathode for Li-ion and Na-ion Batteries.” RSC Advances (2015) 5, 106265.

B. Byles, M. Clites, and E. Pomerantseva, “Chemical modification approaches for improved performance of Na-ion battery electrodes.” Proc SPIE 9553 (2015) 955313-955310.

M. Maksud, N.K.R. Palapati, B.W. Byles, E. Pomerantseva, Y. Liu, and A. Subramanian, “Dependence of Young’s modulus on the sodium content within the structural tunnels of a one-dimensional Na-ion battery cathode.” Nanoscale (2015) 7(42), 17642-17648.

N.K.R. Palapati, E. Pomerantseva, and A. Subramanian, “Single nanowire manipulation within dielectrophoretic force fields in the sub-crossover frequency regime.” Nanoscale (2015) 7(7), 3109-3116.

 

2014

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.

B. Byles and E. Pomerantseva, “Effect of Manganese Oxide Crystal Tunnel Size on Li-ion and Na-ion Battery Performance.” Proc SPIE 9924 (2016) 992406- 992408.

M. Clites, and E. Pomerantseva, “Stabilization of battery electrodes through chemical pre-intercalation of layered materials.” Proc SPIE 9924 (2016) 992405-992405.

X. Xie, M.Q. Zhao, B. Anasori, K. Maleski, C.E. Ren, J. Li, B.W. Byles, E. Pomerantseva, G. Wang, and Y. Gogotsi, “Porous heterostructured MXene/carbon nanotube composite paper with high volumetric capacity for sodium-based energy storage devices.” Nano Energy (2016) 26, 513-523.

A. Byeon, A.M. Glushenkov, B. Anasori, P. Urbankowski, J. Li, B.W. Byles, B. Blake, K.L. Van Aken, S. Kota, E. Pomerantseva, J.W. Lee, Y. Chen, Y. Gogotsi, “Lithium-ion capacitors with 2D Nb2CTx (MXene)-carbon nanotube electrodes.” J. Power Sources (2016) 326, 686-694.

M. Clites, B.W. Byles, and E. Pomerantseva, “Effect of aging and hydrothermal treatment on electrochemical performance of chemically pre- intercalated Na–V–O nanowires for Na-ion batteries.” J. Mater. Chem. A (2016) 4, 7754-7761.

B.W. Byles, N. K. R. Palapati, A. Subramanian, and E. Pomerantseva, “The role of electronic and ionic conductivities in the rate performance of tunnel structured manganese oxides in Li-ion batteries.” APL Materials (2016) 4, 046108.

 

2015

B.W. Byles, P. West, D.A. Cullen, K.L. More, and E. Pomerantseva, “Todorokite-Type Manganese Oxide Nanowires as an Intercalation Cathode for Li-ion and Na-ion Batteries.” RSC Advances (2015) 5, 106265.

B. Byles, M. Clites, and E. Pomerantseva, “Chemical modification approaches for improved performance of Na-ion battery electrodes.” Proc SPIE 9553 (2015) 955313-955310.

M. Maksud, N.K.R. Palapati, B.W. Byles, E. Pomerantseva, Y. Liu, and A. Subramanian, “Dependence of Young’s modulus on the sodium content within the structural tunnels of a one-dimensional Na-ion battery cathode.” Nanoscale (2015) 7(42), 17642-17648.

N.K.R. Palapati, E. Pomerantseva, and A. Subramanian, “Single nanowire manipulation within dielectrophoretic force fields in the sub-crossover frequency regime.” Nanoscale (2015) 7(7), 3109-3116.

 

2014

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.

B.W. Byles, P. West, D.A. Cullen, K.L. More, and E. Pomerantseva, “Todorokite-Type Manganese Oxide Nanowires as an Intercalation Cathode for Li-ion and Na-ion Batteries.” RSC Advances (2015) 5, 106265.

B. Byles, M. Clites, and E. Pomerantseva, “Chemical modification approaches for improved performance of Na-ion battery electrodes.” Proc SPIE 9553 (2015) 955313-955310.

M. Maksud, N.K.R. Palapati, B.W. Byles, E. Pomerantseva, Y. Liu, and A. Subramanian, “Dependence of Young’s modulus on the sodium content within the structural tunnels of a one-dimensional Na-ion battery cathode.” Nanoscale (2015) 7(42), 17642-17648.

N.K.R. Palapati, E. Pomerantseva, and A. Subramanian, “Single nanowire manipulation within dielectrophoretic force fields in the sub-crossover frequency regime.” Nanoscale (2015) 7(7), 3109-3116.

 

2014

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.

K.B. Hatzell, L. Fan, M. Beidaghi, M. Boota, E. Pomerantseva, E.C. Kumbur and Y. Gogotsi, “Composite manganese oxide percolating networks as a suspension electrode for an asymmetric flow capacitor.” ACS Applied Materials & Interfaces (2014) 6, 8886-8893.

B. Byles, A. Subramanian, and E. Pomerantseva, “Acid-leached α-MnO2 nanowires for electrochemical energy storage.” Proceedings SPIE 9174 (2014) 91740Z-91740Z8.