Hydrogen Production in the Heavy Ion Radiolysis of Polymers. 1. Polyethylene, Polypropylene, Poly(methyl methacrylate), and Polystyrene

Abstract: The production of molecular hydrogen in the radiolysis of isotactic polypropylene (PP), poly(methyl methacrylate) (PMMA), and polystyrene (PS) with protons and carbon ions has been investigated. Previous experimental data on the above polymers with γ-ray and helium ion irradiations have been combined with similar studies on high-density polyethylene (PE) to give a comprehensive survey of the dependence of molecular hydrogen yields on particle linear energy transfer, LET, in the range 0.2-800 eV/nm. The radiati… Show more

“…As the best alternative fuel hydrogen has attracted great attention over its production [1][2][3][4], utilization [5][6][7], transportation [8][9][10] and storage [10][11][12][13][14], among which the pursuit of high-performance hydrogen storage materials is undoubtedly the key issue at the very forefront. It is a fundamental problem to be overcome before hydrogen fuel cell vehicles to be on the road in the near future [15].…”

Hydrogen absorption and desorption in Mg–Na–N–H system

“…As the best alternative fuel hydrogen has attracted great attention over its production [1][2][3][4], utilization [5][6][7], transportation [8][9][10] and storage [10][11][12][13][14], among which the pursuit of high-performance hydrogen storage materials is undoubtedly the key issue at the very forefront. It is a fundamental problem to be overcome before hydrogen fuel cell vehicles to be on the road in the near future [15].…”

Hydrogen absorption and desorption in Mg–Na–N–H system

“…This phenomenon could be explained by a H 2 formation mechanism using two different reactions. The first reaction is the direct formation of hydrogen in the spur, with a consecutive formation of a double bond [21]. The second reaction probably implies a reaction with radicals which form hydrogen under inert atmosphere but which would preferentially react with oxygen under oxidative conditions.…”

Aging of magnesium stearate under high doses gamma irradiation and oxidative conditions

“…While the chemical composition of the initial compound is severely denatured in the core region due to the extremely high density of the energy (~1000 eV nm -3 ) relative to the energy of typical chemical bonds (~10 eV nm -3 ). Moderate but unique reactions take place in the penumbra where the energy deposited equivalently to those required for chemical reactions [11][12][13]. There the reactive intermediates--ion radicals, neutral radicals, etc.--are produced by the deposited energy and then, through the recombination reactions of such reactive species, cross-linking and/or polymerization reactions proceed in the penumbra, resulting in the reduced solubility to induce nano-scale gelation of the cylindrical area to form one-dimensional nanogels.…”

Fabrication of Fluorescent Nanowires via High-Energy Particles-Triggered Polymerization Reactions