International audienceProton 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 vario...
The extensive implementation of hydrogen-powered technology today is limited by a number of fundamen...
International audienceA hydrolytically stable titanium carboxylate-based metal−organic framework (MO...
There is great interest in the promising applications of proton-conductive metal–organic frameworks ...
International audienceProton conductive materials are of significant importance and highly desired f...
Exploring stable proton-conducting materials with high and durable proton conductivity is expected, ...
Proton-exchange membranes (PEMs) as separators have important technological applications in electroc...
A few metal-organic frameworks (MOFs), which typically use strong acids as proton sources, display s...
Although comprehensive progress has been made in the area of coordination polymer (CP)/metal–organic...
The use of metal ions and organic linkers to generate metal???organic frameworks (MOFs) with various...
International audienceProton exchange membrane fuel cells (PEMFCs) are an attractive green technolog...
Metal–organic framework (MOF) materials are a nontraditional route to ion conductors, but their crys...
We investigate and discuss the proton conductivity properties of the cyanide-bridged metal–organic f...
The low proton conductivity of proton-conducting solids at reduced relative humidity (RH) hinders th...
The conductivity performance of a new series of chemically stable proton conducting Metal Organic Fr...
Nowadays energy demands are huge and still increasing. This fact drives the search for modern techno...
The extensive implementation of hydrogen-powered technology today is limited by a number of fundamen...
International audienceA hydrolytically stable titanium carboxylate-based metal−organic framework (MO...
There is great interest in the promising applications of proton-conductive metal–organic frameworks ...
International audienceProton conductive materials are of significant importance and highly desired f...
Exploring stable proton-conducting materials with high and durable proton conductivity is expected, ...
Proton-exchange membranes (PEMs) as separators have important technological applications in electroc...
A few metal-organic frameworks (MOFs), which typically use strong acids as proton sources, display s...
Although comprehensive progress has been made in the area of coordination polymer (CP)/metal–organic...
The use of metal ions and organic linkers to generate metal???organic frameworks (MOFs) with various...
International audienceProton exchange membrane fuel cells (PEMFCs) are an attractive green technolog...
Metal–organic framework (MOF) materials are a nontraditional route to ion conductors, but their crys...
We investigate and discuss the proton conductivity properties of the cyanide-bridged metal–organic f...
The low proton conductivity of proton-conducting solids at reduced relative humidity (RH) hinders th...
The conductivity performance of a new series of chemically stable proton conducting Metal Organic Fr...
Nowadays energy demands are huge and still increasing. This fact drives the search for modern techno...
The extensive implementation of hydrogen-powered technology today is limited by a number of fundamen...
International audienceA hydrolytically stable titanium carboxylate-based metal−organic framework (MO...
There is great interest in the promising applications of proton-conductive metal–organic frameworks ...