Radiation chemistry is a subdivision of nuclear chemistry which is the investigation of the chemical impacts of radiation on matter this is although different from radiochemistry as no radioactivity should be available in the material which is chemically changed by the radiation. An example is the conversion of water into hydrogen gas and hydrogen peroxide. As ionizing radiation travels through matter its energy is stored through interactions with the electrons of the absorber. The result of interaction between the radiation and the absorbing species is removal of an electron from an atom or molecular bond to shape radicals and energized species. The radical species at that point continue to respond with one another or with different molecules in their region. It is the reactions of the radical species that are responsible for the changes observed following irradiation of a chemical system.
Biochemistry and Modern Applications is a peer reviewed Journal, with rapid publication process. The topics like DNA polymerases, Heterochromatin, Ribosome, Non-coding DNA, Cell biology, Metabolism, Nutritional Biochemistry, Medicinal Biochemistry and Hormonal Biochemistry are studied. This is not just limited to above areas. The knowledge related to different biomolecules and their mechanisms can be studied in the journal of Biochemistry and modern applications. This journal provides an open access platform for the young scientists and researchers to share their valuable information regarding the biomolecules and their mechanism.