Bosak, A.; Dideikin, A.; Dubois, M.; Ivankov, O.; Lychagin, E.; Muzychka, A.; Nekhaev, G.; Nesvizhevsky, V.; Nezvanov, A.; Schweins, R.;
et al. Fluorination of Diamond Nanoparticles in Slow Neutron Reflectors Does Not Destroy Their Crystalline Cores and Clustering While Decreasing Neutron Losses. Materials 2020, 13, 3337.
https://doi.org/10.3390/ma13153337
AMA Style
Bosak A, Dideikin A, Dubois M, Ivankov O, Lychagin E, Muzychka A, Nekhaev G, Nesvizhevsky V, Nezvanov A, Schweins R,
et al. Fluorination of Diamond Nanoparticles in Slow Neutron Reflectors Does Not Destroy Their Crystalline Cores and Clustering While Decreasing Neutron Losses. Materials. 2020; 13(15):3337.
https://doi.org/10.3390/ma13153337
Chicago/Turabian Style
Bosak, Alexei, Artur Dideikin, Marc Dubois, Oleksandr Ivankov, Egor Lychagin, Alexei Muzychka, Grigory Nekhaev, Valery Nesvizhevsky, Alexander Nezvanov, Ralf Schweins,
and et al. 2020. "Fluorination of Diamond Nanoparticles in Slow Neutron Reflectors Does Not Destroy Their Crystalline Cores and Clustering While Decreasing Neutron Losses" Materials 13, no. 15: 3337.
https://doi.org/10.3390/ma13153337
APA Style
Bosak, A., Dideikin, A., Dubois, M., Ivankov, O., Lychagin, E., Muzychka, A., Nekhaev, G., Nesvizhevsky, V., Nezvanov, A., Schweins, R., Strelkov, A., Vul’, A., & Zhernenkov, K.
(2020). Fluorination of Diamond Nanoparticles in Slow Neutron Reflectors Does Not Destroy Their Crystalline Cores and Clustering While Decreasing Neutron Losses. Materials, 13(15), 3337.
https://doi.org/10.3390/ma13153337
