G. Merle, M. Wessling, and K. Nijmeijer, Anion exchange membranes for alkaline fuel cells: A review, J. Membr. Sci, vol.377, pp.1-35, 2011.

G. Couture, A. Alaaeddine, F. Boschet, and B. Ameduri, Polymeric materials as anion-exchange membranes for alkaline fuel cells, Progress in Polymer Science, vol.36, pp.1521-1557, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00594264

M. A. Hickner, A. M. Herring, and E. B. Coughlin, Anion Exchange Membranes: Current Status and Moving Forward, Journal of Polymer Science Part B-Polymer Physics, vol.51, pp.1727-1735, 2013.

Z. F. Pan, L. An, T. S. Zhao, and Z. K. Tang, Advances and challenges in alkaline anion exchange membrane fuel cells, Prog. Energy Combust. Sci, vol.66, pp.141-175, 2018.

C. G. Arges and L. Zhang, Anion Exchange Membranes' Evolution toward High Hydroxide Ion Conductivity and Alkaline Resiliency, Acs Applied Energy Materials, vol.1, pp.2991-3012, 2018.

C. G. Arges, L. H. Wang, J. Parrondo, and V. Ramani, Best Practices for Investigating Anion Exchange Membrane Suitability for Alkaline Electrochemical Devices: Case Study Using Quaternary Ammonium Poly(2,6-dimethyl 1,4-phenylene)oxide Anion Exchange Membranes, J. Electrochem. Soc, vol.160, pp.1258-1274, 2013.

D. Vona, M. L. Narducci, R. Pasquini, L. Pelzer, K. Knauth et al., Anion-conducting ionomers: Study of type of functionalizing amine and macromolecular cross-linking, Int. J. Hydrogen Energy, vol.39, pp.14039-14049, 2014.

Z. Sun, J. Pan, J. N. Guo, and F. Yan, The Alkaline Stability of Anion Exchange Membrane for Fuel Cell Applications: The Effects of Alkaline Media, Advanced Science, vol.5, p.11, 2018.

S. A. Nunez and M. A. Hickner, Quantitative H-1 NMR Analysis of Chemical Stabilities in Anion-Exchange Membranes, Acs Macro Letters, vol.2, pp.49-52, 2013.

S. Miyanishi and T. Yamaguchi, Ether cleavage-triggered degradation of benzyl alkylammonium cations for polyethersulfone anion exchange membranes, Physical Chemistry Chemical Physics, vol.18, pp.12009-12023, 2016.

T. P. Pandey, H. N. Sarode, Y. T. Yang, Y. Yang, K. Vezzu et al., A Highly Hydroxide Conductive, Chemically Stable Anion Exchange Membrane, Poly(2,6 dimethyl 1,4 phenylene oxide)-b-Poly(vinyl benzyl trimethyl ammonium), for Electrochemical Applications, J. Electrochem. Soc, vol.163, pp.513-520, 2016.

J. Cheng, G. H. He, and F. X. Zhang, A mini-review on anion exchange membranes for fuel cell applications: Stability issue and addressing strategies, International Journal of Hydrogen Energy, vol.40, pp.7348-7360, 2015.

R. A. Becerra-arciniegas, R. Narducci, G. Ercolani, S. Antonaroli, E. Sgreccia et al., Alkaline stability of model anion exchange membranes based on poly(phenylene oxide) (PPO) with grafted quaternary ammonium groups: Influence of the functionalization route, Polymer, p.121931, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02657936

K. D. Kreuer and P. Jannasch, A practical method for measuring the ion exchange capacity decrease of hydroxide exchange membranes during intrinsic degradation, Journal of Power Sources, vol.375, pp.361-366, 2018.

A. Jasti, S. Prakash, and V. K. Shahi, Stable and hydroxide ion conductive membranes for fuel cell applications: Chloromethyaltion and amination of poly(ether ether ketone), Journal of Membrane Science, vol.428, pp.470-479, 2013.

N. W. Li, Y. J. Leng, M. A. Hickner, and C. Y. Wang, Highly Stable, Anion Conductive, Comb-Shaped Copolymers for Alkaline Fuel Cells, Journal of the American Chemical Society, vol.135, pp.10124-10133, 2013.

N. W. Li, L. Z. Wang, and M. Hickner, Cross-linked comb-shaped anion exchange membranes with high base stability, Chemical Communications, vol.50, pp.4092-4095, 2014.

H. S. Dang and P. Jannasch, Exploring Different Cationic Alkyl Side Chain Designs for Enhanced Alkaline Stability and Hydroxide Ion Conductivity of Anion-Exchange Membranes, Macromolecules, vol.48, pp.5742-5751, 2015.

J. R. Varcoe and R. C. Slade, Prospects for alkaline anion-exchange membranes in low temperature fuel cells, Fuel Cells, vol.5, pp.187-200, 2005.

J. Jagur-grodzinski, Polymeric materials for fuel cells: concise review of recent studies. Polymers for Advanced Technologies, vol.18, pp.785-799, 2007.

M. G. Marino and K. D. Kreuer, Alkaline Stability of Quaternary Ammonium Cations for Alkaline Fuel Cell Membranes and Ionic Liquids, Chemsuschem, vol.8, pp.513-523, 2015.

Y. Pan, Q. D. Zhang, X. M. Yan, J. F. Liu, X. W. Xu et al., Hydrophilic side chain assisting continuous ion-conducting channels for anion exchange membranes, Journal of Membrane Science, vol.552, pp.286-294, 2018.

R. Narducci, G. Ercolani, R. A. Becerra-arciniegas, L. Pasquini, P. Knauth et al., Intrinsic" Anion Exchange Polymers through the Dissociation of Strong Basic Groups: PPO with Grafted Bicyclic Guanidines, p.9, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02658037

B. Bauer, H. Strathmann, and F. Effenberger, Anion-exchange membranes with improved alkaline stability, Desalination, vol.79, pp.125-144, 1990.

I. Zadok, D. R. Dekel, and S. Srebnik, Effect of Ammonium Cations on the Diffusivity and Structure of Hydroxide Ions in Low Hydration Media, Journal of Physical Chemistry C, vol.123, pp.27355-27362, 2019.

M. Zhang, J. L. Liu, Y. G. Wang, L. A. An, M. D. Guiver et al., Highly stable anion exchange membranes based on quaternized polypropylene, Journal of Materials Chemistry A, vol.3, pp.12284-12296, 2015.

A. D. Mohanty, S. E. Tignor, J. A. Krause, Y. K. Choe, and C. Bae, Systematic Alkaline Stability Study of Polymer Backbones for Anion Exchange Membrane Applications, Macromolecules, vol.49, pp.3361-3372, 2016.

C. X. Lin, X. Q. Wang, E. N. Hu, Q. Yang, Q. G. Zhang et al., Quaternized triblock polymer anion exchange membranes with enhanced alkaline stability, J. Membr. Sci, vol.541, pp.358-366, 2017.

J. Pan, J. J. Han, L. Zhu, and M. A. Hickner, Cationic Side-Chain Attachment to Poly(Phenylene Oxide) Backbones for Chemically Stable and Conductive Anion Exchange Membranes, Chemistry of Materials, vol.29, pp.5321-5330, 2017.

H. Long, K. Kim, and B. S. Pivovar, Hydroxide Degradation Pathways for Substituted Trimethylammonium Cations: A DFT Study, Journal of Physical Chemistry C, vol.116, pp.9419-9426, 2012.

L. Liu, X. M. Chu, J. Y. Liao, Y. D. Huang, Y. Li et al., Tuning the properties of poly(2,6-dimethyl-1,4-phenylene oxide) anion exchange membranes and their performance in H-2/O-2 fuel cells, Energy & Environmental Science, vol.11, pp.435-446, 2018.

L. Zhu, X. D. Yu, and M. A. Hickner, Exploring backbone-cation alkyl spacers for multi-cation side chain anion exchange membranes, Journal of Power Sources, vol.375, pp.433-441, 2018.

D. Vona, M. L. Casciola, M. Donnadio, A. Nocchetti, M. Pasquini et al., Anionic conducting composite membranes based on aromatic polymer and layered double hydroxides, Int. J. Hydrogen Energy, vol.42, pp.3197-3205, 2017.

R. Pizzoferrato, E. Ciotta, I. V. Ferrari, R. Narducci, L. Pasquini et al., Layered Double Hydroxides Containing an Ionic Liquid: Ionic Conductivity and Use in Composite Anion Exchange Membranes, vol.5, pp.2781-2788, 2018.

Z. Derbali, A. Fahs, J. F. Chailan, I. V. Ferrari, M. L. Di-vona et al., Composite anion exchange membranes with functionalized hydrophilic or hydrophobic titanium dioxide, Int. J. Hydrogen Energy, vol.42, pp.19178-19189, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01760133

Z. Sun, B. C. Lin, and F. Yan, Anion-Exchange Membranes for Alkaline Fuel-Cell Applications: The Effects of Cations, Chemsuschem, vol.11, pp.58-70, 2018.

L. Liu, Q. Li, J. W. Dai, H. Wang, B. K. Jin et al., A facile strategy for the synthesis of guanidinium-functionalized polymer as alkaline anion exchange membrane with improved alkaline stability, J. Membr. Sci, vol.453, pp.52-60, 2014.

A. J. Chalk and A. S. Hay, Direct metalation of poly(2,6-dimethyl-1,4-phenylene ether), Journal of Polymer Science Part A, vol.7, issue.1, pp.691-705, 1969.

Z. Y. Wang, J. Parrondo, and V. Ramani, Alkaline Stability of Poly(Phenylene Oxide) Based Anion Exchange Membranes Containing Imidazolium Cations, J. Electrochem. Soc, vol.163, pp.824-831, 2016.

L. Pasquini, M. L. Di-vona, and P. Knauth, Effects of anion substitution on hydration, ionic conductivity and mechanical properties of anion-exchange membranes, New J. Chem, vol.40, pp.3671-3676, 2016.

M. Liang, Poly(phenylene oxide, vol.3, 2011.

C. G. Arges, L. H. Wang, M. S. Jung, and V. Ramani, Mechanically Stable Poly(arylene ether) Anion Exchange Membranes Prepared from Commercially Available Polymers for Alkaline Electrochemical Devices, Journal of the Electrochemical Society, vol.162, pp.686-693, 2015.

J. Parrondo, M. S. Jung, Z. Y. Wang, C. G. Arges, and V. Ramani, Synthesis and Alkaline Stability of Solubilized Anion Exchange Membrane Binders Based on Poly

, Quaternary Ammonium Groups via a Hexyl Spacer, Journal of the Electrochemical Society, vol.162, pp.1236-1242, 2015.

T. Perez-prior, M. Urena, N. Tannenberg, M. Del-rio, C. Levenfeld et al., DABCOfunctionalized polysulfones as anion-exchange membranes for fuel cell applications: Effect of crosslinking, Journal of Polymer Science Part B-Polymer Physics, vol.55, pp.1326-1336, 2017.

G. Kortüm, Treatise on Electrochemistry, 1965.

M. Braglia, I. V. Ferrari, L. Pasquini, T. Djenizian, M. Sette et al., Electrochemical synthesis of thin, dense, and conformal anion exchange membranes with quaternary ammonium groups, Electrochim. Acta, vol.265, pp.78-88, 2018.

L. Pasquini, P. Knauth, K. Pelzer, and M. L. Di-vona, Anion-conducting sulfaminated aromatic polymers by acid functionalization, Rsc Advances, vol.5, pp.56636-56644, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01417375

R. Narducci, L. Pasquini, J. F. Chailan, P. Knauth, and M. L. Di-vona, Low-Permeability Poly(ether Ether Ketone)-Based Ampholytic Membranes, vol.81, pp.550-556, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01760150

R. Narducci, J. F. Chailan, A. Fahs, L. Pasquini, M. L. Di-vona et al., Mechanical Properties of Anion Exchange Membranes by Combination of Tensile Stress-Strain Tests and Dynamic Mechanical Analysis, Journal of Polymer Science Part B-Polymer Physics, vol.54, pp.1180-1187, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01760151

E. Sgreccia, M. L. Di-vona, S. Licoccia, M. Sganappa, M. Casciola et al., Self-assembled nanocomposite organic-inorganic proton conducting sulfonated poly-ether-ether-ketone (SPEEK)-based membranes: Optimized mechanical, thermal and electrical properties, J. Power Sources, vol.192, pp.353-359, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01361805

X. G. Li, High-resolution thermogravimetry of poly(2,6-dimethyl-1,4-phenylene oxide), Journal of Applied Polymer Science, vol.71, pp.1887-1892, 1999.

G. F. Ehlers, K. R. Fisch, and W. R. Powell, Thermal degradation of polymers with phenylene units in the chain. I. Polyphenylenes and poly(phenylene oxides), Journal of Polymer Science Part A, vol.7, issue.1, pp.2931-2953, 1969.

M. Tomoi, K. Yamaguchi, R. Ando, Y. Kantake, Y. Aosaki et al., Synthesis and thermal stability of novel anion exchange resins with spacer chains, J. Appl. Polym. Sci, vol.64, pp.1161-1167, 1997.