Add to ORKGA survey is presented of the storage capacities of a large number of different adsorbents for hydrogen at 77 K and 1 bar. Results are evaluated to examine the feasibility and perspectives of transportable and reversible storage systems based on physisorption of hydrogen on adsorbents. It is concluded that microporous adsorbents, e.g. zeolites and activated carbons, display appreciable sorption capacities. Based on their micropore volume ( ~ 1 ml/g) carbon-based sorbents display the largest adsorption, viz. 238 ml (STP)/g, at the prevailing conditions. Optimization of sor-bent and adsorption conditions is expected to lead to adsorption of ~ 560 ml (STP)/g, close to targets set for mobile applications
International audienceCarbon-based materials, due to their low cost and weight, have long been consi...
In this short review, we will briefly discuss the story of hydrogen storage, its impact on clean ene...
A Round Robin exercise has been carried out in the frame of the European project NESSHY (Novel and E...
Abstract. A survey is presented of the storage capacities of a large number of different adsorbents ...
There is much current interest in the storage of hydrogen in porous materials for mobile energy appl...
Physical adsorption remains a promising method for achieving fast, reversible hydrogen storage at bo...
International audienceIn this paper, we focused on hydrogen adsorption on large surface area solids,...
4th France-Russia Conference on New Achievements Materials and Environmental Sciences (NAMES), Nancy...
International audienceCarbons are one of several promising groups of materials for hydrogen storage ...
Abstract. Interest in hydrogen as a fuel has grown dramati-cally since 1990, and many advances in hy...
Hydrogen adsorption measurements have been carried out at different temperatures (298 K and 77 K) an...
This thesis describes our research on adsorbent systems for hydrogen storage for small scale, mobile...
Microporous materials (with pores of less than 2 nm in diameter) have attracted considerable attenti...
Hydrogen storage using physisorption requires higher desorption temperatures than those possible usi...
Nanoporous adsorbents are a diverse category of solid-state materials that hold considerable promise...
International audienceCarbon-based materials, due to their low cost and weight, have long been consi...
In this short review, we will briefly discuss the story of hydrogen storage, its impact on clean ene...
A Round Robin exercise has been carried out in the frame of the European project NESSHY (Novel and E...
Abstract. A survey is presented of the storage capacities of a large number of different adsorbents ...
There is much current interest in the storage of hydrogen in porous materials for mobile energy appl...
Physical adsorption remains a promising method for achieving fast, reversible hydrogen storage at bo...
International audienceIn this paper, we focused on hydrogen adsorption on large surface area solids,...
4th France-Russia Conference on New Achievements Materials and Environmental Sciences (NAMES), Nancy...
International audienceCarbons are one of several promising groups of materials for hydrogen storage ...
Abstract. Interest in hydrogen as a fuel has grown dramati-cally since 1990, and many advances in hy...
Hydrogen adsorption measurements have been carried out at different temperatures (298 K and 77 K) an...
This thesis describes our research on adsorbent systems for hydrogen storage for small scale, mobile...
Microporous materials (with pores of less than 2 nm in diameter) have attracted considerable attenti...
Hydrogen storage using physisorption requires higher desorption temperatures than those possible usi...
Nanoporous adsorbents are a diverse category of solid-state materials that hold considerable promise...
International audienceCarbon-based materials, due to their low cost and weight, have long been consi...
In this short review, we will briefly discuss the story of hydrogen storage, its impact on clean ene...
A Round Robin exercise has been carried out in the frame of the European project NESSHY (Novel and E...