[20] griffith rV, Hankins De, gammage rB, Wheeler rV. recent developments in personnel neutron dosimeters-alpha (review). Health

Phys 1979;36:253-260.

[21] Tsuruta T, Takagaki M. Neutron dosimetry by the spark counting of tracks in boron-doped film. Health Phys 1982;43:705-710.

[22] Tsuruta T, Juto N. Neutron dosimetry with boron-doped Cr-39 plastic. J Nucl Sci Technol 1984;21:871-876.

[23] Kikuchi r, Kawamoto T, Lee CH, Kawanishi M. The TSee from the sintered Li 2 B 4 O 7 crystals, the glass ceramics of Li 2 B 4 O 7 + SiO 2

and the thin evaporated layer of Li 2 B 4 O 7 on the LiF single crystal. radiat Prot Dosimetry 1983;4:196-200.

[24] Kervalishvili PJ. Boron isotopes doped germanium and silicon based gamma and neutron radiation nanosensors. in: Contents of the 2nd

international Conference “Nanotechnologies”. Tbilisi: Publ. House Nekeri; 2012. p 120-121.

[25] guldamashvili Ai, Bokuchava gV, Kutelia rN, Nebieridze TsM. High-effective ion-implanted semiconductor neutron detector. Bull

georgian Acad Sci 2005;172:250-233.

[26] guldamashvili Ai, Bokuchava gV, Nardaya Yui, Nebieridze TsM, Sichinava AV. ion-implanted semiconductor neutron sensor (iiSNS).

in: Kervalishvili PJ, editor. Nuclear radiation Nanosensors and Nanosensory Systems. Tbilisi: Publ. House Tech. Univ.; 2014.

p 122-124.

[27] Chkhartishvili L, Tsagareishvili O, Tavadze g. Neutron detectors based on 10 B-containing nanomaterials. in: Kervalishvili PJ, editor,

Nuclear radiation Nanosensors and Nanosensory Systems. Tbilisi: Publ. House Tech. Univ.; 2014. p 81-83.