A robust zirconium amino acid metal-organic framework for proton conduction

Abstract

Proton conductive materials are of significant importance and highly desired for clean energy-related applications. Discovery of practical metal-organic frameworks (MOFs) with high proton conduction remains a challenge due to the use of toxic chemicals, inconvenient ligand preparation and complication of production at scale for the state-of-the-art candidates. Herein, we report a zirconium-MOF, MIP-202(Zr), constructed from natural α-amino acid showing a high and steady proton conductivity of 0.011 S cm-1 at 363 K and under 95% relative humidity. This MOF features a cost-effective, green and scalable preparation with a very high space-time yield above 7000 kg m-3 day-1. It exhibits a good chemical stability under various conditions, including solutions of wide pH range and boiling water. Finally, a comprehensive molecular simulation was carried out to shed light on the proton conduction mechanism. All together these features make MIP-202(Zr) one of the most promising candidates to approach the commercial benchmark Nafion.

References

Page 1

	Year	Citations
A New Zirconium Inorganic Building Brick Forming Metal Organic Frameworks with Exceptional Stability J. Hafizovic, Søren Jakobsen, Unni Olsbye, Journal of the American Chemical Society	2008	6.9K
Paris Agreement climate proposals need a boost to keep warming well below 2 °C Joeri Rogelj, Michel den Elzen, Niklas Höhne, Nature Climate SciencesClimate EthicsEngineeringClimate Change MitigationClimate Action	2016	3.3K
Water Adsorption in Porous Metal–Organic Frameworks and Related Materials Hiroyasu Furukawa, Felipe Gándara, Yue‐Biao Zhang, Journal of the American Chemical Society	2014	2.7K
CHEM21 selection guide of classical- and less classical-solvents Denis Prat, A.S. Wells, John Hayler, Green Chemistry Simplified Greenness EvaluationChemical EngineeringEngineeringGreen PharmacyGreen Chemistry	2015	2K
A flexible metal–organic framework with a high density of sulfonic acid sites for proton conduction Fan Yang, Gang Xu, Yibo Dou, Nature Energy Materials ScienceHigh DensityFlexible Metal–organic FrameworkConducting PolymerEngineering	2017	715
Nanostructured metal–organic frameworks and their bio-related applications Mónica Giménez‐Marqués, Tania Hidalgo, Christian Serre, Coordination Chemistry Reviews EngineeringNanostructured Metal–organic FrameworksChemistryMetal-organic PolyhedronMetal-organic Frameworks	2015	559
Superprotonic Conductivity of a UiO‐66 Framework Functionalized with Sulfonic Acid Groups by Facile Postsynthetic Oxidation Won Ju Phang, Hyuna Jo, Woo Ram Lee, Angewandte Chemie International Edition Materials ScienceInorganic ChemistryChemical EngineeringSolid-state IonicEngineering	2015	521
Imparting High Proton Conductivity to a Metal–Organic Framework Material by Controlled Acid Impregnation Konstantin A. Kovalenko, Alexei P. Chupakhin, Danil N. Dybtsev, Journal of the American Chemical Society Hydrogen Energy TechnologyHigh ConductivityEngineeringChemistryHigh Proton Conductivity	2012	490
Temperature dependence of TIP3P, SPC, and TIP4P water from NPT Monte Carlo simulations: Seeking temperatures of maximum density William L. Jorgensen, Corky Jenson Journal of Computational Chemistry EngineeringTemperature DependenceExperimental ThermodynamicsComputational ChemistryChemistry	1998	458
Two‐in‐One: Inherent Anhydrous and Water‐Assisted High Proton Conduction in a 3D Metal–Organic Framework Sanjog S. Nagarkar, Sreekuttan M. Unni, Amitosh Sharma, Angewandte Chemie International Edition High ConductivityEngineeringMof MaterialsChemistryConducting Polymer	2013	418

Page 1