39) Effects of crosslinking density and Lewis acidic sites on conductivity and viscoelasticity of dynamic network electrolytes

B. B. Jing, P. Mata, Q. Zhao, C. M. Evans* Journal of Polymer Science (Young Investigator Special Issue) 2021

38) Importance of broad temperature windows and multiple rheological approaches for probing viscoelasticity and entropic elasticity in vitrimers

L. Porath, C. M. Evans* Macromolecules 2021

37) Effect of molecular weight on viscosity scaling and ion transport in linear polymerized ionic liquids

Q. Zhao, C. M. Evans* Macromolecules 2021

36) Effect of aromatic/aliphatic structure and cross-linking density on the thermal conductivity of epoxy resins

G. Lv, E. Jensen, N. Shan, C. M. Evans, D. G. Cahill* ACS Applied Polymer Materials 2021

35) Effect of amine hardener molecular structure on the thermal conductivity of epoxy resins

G. Lv, E. Jensen, C. Shen, K. Yang, C. M. Evans, D. G. Cahill* ACS Applied Polymer Materials 2021

34) Effect of precise linker length, bond density, and broad temperature window on the rheological properties of ethylene vitrimers

B. Soman, C. M Evans* Soft Matter (Emerging Investigators Issue) 2021

33) Critical role of ion exchange conditions on the properties of network ionic polymers

N. Shan, C. Shen, C. M Evans* ACS Macro Letters 2020

32) Conductivity-modulus-Tg relationships in solvent-free, single lithium ion conducting network electrolytes

C. Shen, Q. Zhao, N. Shan, B. B. Jing, C. M Evans* Journal of Polymer Science 2020

31) Shock Wave Energy Dissipation in Catalyst-free PDMS Vitrimers

J. Lee, B. B. Jing, L. E. Porath, N. R. Sottos, C. M. Evans* Macromolecules 2020

30) Role of Multivalent Interactions in Dynamic-Template-Directed Assembly of Conjugated Polymers

E. Mohammadi, P. Kafle, K.-Y. Huang, W. Zhu, J. Huang, S.-H. Jung, J.-K. Lee, C. M. Evans, Y. Diao* ACS Applied Materials and Interfaces 2020

29) Catalyst-free dynamic networks for recyclable, self-healing solid polymer electrolytes

B. B. Jing, C. M. Evans* Journal of the American Chemical Society 2019

28) Molecular Design of Precise Network Polymerized Ionic Liquid Membranes for Toluene/Heptane Separation

G. S. Sheridan, C. M. Evans* Industrial & Engineering Chemistry Research 2019

27) Effect of Network Architecture and Linker Polarity on Ion Aggregation and Conductivity in Precise Polymerized Ionic Liquids

Q. Zhao, C. Shen, K. Halloran, C. M. Evans* ACS Macro Letters 2019

26) Ion Specific, Odd-Even Glass Transition Temperatures and Conductivities in Precise Network Polymerized Ionic Liquids

C. Shen, Q. Zhao, C. M. Evans* Molecular Systems Design and Engineering 2019

25) Precise Network Polymerized Ionic Liquids for Low-Voltage, Dopant-free Soft Actuators

C. Shen, Q. Zhao, C. M. Evans* Advanced Materials Technologies 2019


24) Ion Gel Dynamic Templates for Large Modulation of Morphology and Charge Transport Properties of Solution-Coated Conjugated Polymer Thin Films

E. Mohammadi, C. Zhao, F. Zhang, G. Qu, S.-H. Jung, Q. Zhao, C. M. Evans, Jin-Kyun Lee, D. Shukla, Y. Diao* ACS Applied Materials and Interfaces 2019

23) Effect of Polymerized Ionic Liquid Structure and Morphology on Shockwave Energy Dissipation

J. Lee, V. Lau, Y. Ren, C. M. Evans, J. S. Moore, N. R. Sottos* ACS Macro Letters 2019


22) Ion Transport in Dynamic Polymer Networks Based on Metal-Ligand Coordination: Effect of crosslinker concentration

G. E. Sanoja, N. S. Schauser, J. M. Bartels, C. M. Evans, M. E. Helgeson, R. Seshadri, R. A. Segalman, Macromolecules 2018

21) Decoupling Mechanical and Conductive Dynamics of Polymeric Ionic Liquids via a Trivalent Anion Additive

J. Bartels, G. E. Sanoja, C. M. Evans, R. A. Segalman, M. E. Helgeson, Macromolecules 2017

20) Role of tethered ion placement on polymerized ionic liquid structure and conductivity: Pendant vs backbone charge placement

C. M. Evans, C. R. Bridges, G. E. Sanoja, J. Bartels, R. A. Segalman, ACS Macro Letters 2016Evans_TOC Graphic_Ionene PIL manuscript_May 19

19) Anisotropic Thermal Transport in Thermoelectric Composites of Conjugated Polyelectrolyte/Single-Walled Carbon Nanotubes

C.-K. Mai, J. Liu, C. M. Evans, R. A. Segalman, M. L. Chabinyc, D. G. Cahill, G. C. Bazan, Macromolecules 2016


18) Anhydrous Proton Transport in Polymerized Ionic Liquid Block Copolymers: Roles of Block Length, Ionic Content, and Confinement

C. M. Evans, G. E. Sanoja, B. C. Popere, R. A. Segalman, Macromolecules 2016


17) Electrochemical Effects in Thermoelectric Polymers

W. B. Chang, H. Fang, J. Liu, C. M. Evans, B. Russ, B. C. Popere, S. N. Patel, M. L. Chabinyc, R. A. Segalman, ACS Macro Letters 2016


16) Structure–Conductivity Relationships of Block Copolymer Membranes Based on Hydrated Protic Polymerized Ionic Liquids: Effect of Domain Spacing

G. E. Sanoja, B. C. Popere, B. S. Beckingham, C. M. Evans, N. A. Lynd, R. A. Segalman, Macromolecules 2016



15) Harvesting Waste Heat in Unipolar Ion Conducting Polymers

W. B. Chang, C. M. Evans, B. C. Popere, B. M. Russ, J. Liu, J. Newman, R. A. Segalman, ACS Macro Letters 2016



14) Improving the Gas Barrier Properties of Nafion via Thermal Annealing: Evidence for Diffusion through Hydrophilic Channels and Matrix

C. M. Evans, M. R. Singh, N. A. Lynd, R. A. Segalman, Macromolecules 2015



13) Enhanced water vapor blocking in transparent hybrid polymer–nanocrystal films

E. S. Cho, C. M. Evans, E. C. Davidson, M. L. Hoarfrost, M. A. Modestino, R. A. Segalman, J. J. Urban, ACS Macro Letters 2015



12) Role of neighboring domains in determining the magnitude and direction of Tg-confinement effects in binary, immiscible polymer systems

C. M. Evans, S. Kim, C. B. Roth, R. D. Priestley, L. J. Broadbelt, J. M. Torkelson, Polymer 2015b1127d_26045282a8a34ec4a99cff9758bdfdc2


11) Residual stress relaxation and stiffness in spin-coated polymer films: Characterization by ellipsometry and fluorescence

S. Askar, C. M. Evans, J. M. Torkelson, Polymer 2015b1127d_c9595ab55b0e46d9bff0cf2cf29fc9c7


10) Robust production of purified H 2 in a stable, self-regulating, and continuously operating solar fuel generator

M. A. Modestino, K. A. Walczak, A. Berger, C. M. Evans, S. Haussener, C. Koval, J. S. Newman, J. W. Ager, R. A. Segalman, Energy and Environmental Science 2014b1127d_196d2fead6b0449b89a22fe166ee5fcc


9) Fragility is a key parameter in determining the magnitude of Tg-confinement effects in polymer films

C. M. Evans, H. Deng, W. F. Jager, J. M. Torkelson, Macromolecules 2013b1127d_bf97e4d00a724ab293017e7138270c17


8) Simultaneous determination of critical micelle temperature and micelle core glass transition temperature of block copolymer–solvent systems via pyrene-label fluorescence

C. M. Evans, K. J. Henderson, J. D. Saathoff, K. R. Shull, J. M. Torkelson, Macromolecules 2013b1127d_cd977757cdc14ffdb86393b9ef3699c7


7) Modulus, confinement, and temperature effects on surface capillary wave dynamics in bilayer polymer films near the glass transition

C. M. Evans, S. Narayanan, Z. Jiang, J. M. Torkelson, Physical Review Letters 2012b1127d_e36e9365bec1444a8ad95cd99ff1a045

6) Major Roles of Blend Partner Fragility and Dye Placement on Component Glass Transition Temperatures: Fluorescence Study of Near-Infinitely Dilute Species in Binary Blends

C. M. Evans, J. M. Torkelson, Macromolecules 2012b1127d_f12ac526c4214ce8a115b12907ba2227

5) Determining multiple component glass transition temperatures in miscible polymer blends: Comparison of fluorescence spectroscopy and differential scanning calorimetry

C. M. Evans, J. M. Torkelson, Polymer 2012b1127d_dce44cbc35b641b8b6ba3fa9d38bb577

4) Glass transition temperature of a component near infinite dilution in binary polymer blends: determination via fluorescence spectroscopy

C. M. Evans, R. W. Sandoval, J. M. Torkelson, Macromolecules (Communication) 2011b1127d_fc1c04b060574752839286798783608f

3) Polydispersity effects in poly(isoprene-b-styrene-b-ethylene oxide) triblock terpolymers

A. J. Meuler, C. J. Ellison, J. Qin, C. M. Evans, M. A. Hillmyer, F. S. Bates, The Journal of Chemical Physics 2009b1127d_e7c2d40dfcf8477295089136cfa74da6

2) Bicontinuous Polymeric Microemulsions from Polydisperse Diblock Copolymers

C. J. Ellison, A. J. Meuler, J. Qin, C. M. Evans, L. M. Wolf and F. S. Bates, The Journal of Physical Chemistry 2009b1127d_844a10e62d80440cb7aa0f76b6a28d86

1) Polydispersity-Driven Transition from the Orthorhombic Fddd Network to Lamellae in Poly (isoprene-b-styrene-b-ethylene oxide) Triblock Terpolymers

A. J. Meuler, C. J. Ellison, C. M. Evans, M. A. Hillmyer, F. S. Bates, Macromolecules (Communication) 2007b1127d_c8ae3c9b0fff43779e577fb48bc8c74d