Kobylianskyi, R.; Przystupa, K.; Lysko, V.; Majewski, J.; Vikhor, L.; Boichuk, V.; Zadorozhnyy, O.; Kochan, O.; Umanets, M.; Pasyechnikova, N.
Thermoelectric Measuring Equipment for Perioperative Monitoring of Temperature and Heat Flux Density of the Human Eye in Vitreoretinal Surgery. Sensors 2025, 25, 999.
https://doi.org/10.3390/s25040999
AMA Style
Kobylianskyi R, Przystupa K, Lysko V, Majewski J, Vikhor L, Boichuk V, Zadorozhnyy O, Kochan O, Umanets M, Pasyechnikova N.
Thermoelectric Measuring Equipment for Perioperative Monitoring of Temperature and Heat Flux Density of the Human Eye in Vitreoretinal Surgery. Sensors. 2025; 25(4):999.
https://doi.org/10.3390/s25040999
Chicago/Turabian Style
Kobylianskyi, Roman, Krzysztof Przystupa, Valentyn Lysko, Jacek Majewski, Lyudmyla Vikhor, Vadym Boichuk, Oleg Zadorozhnyy, Orest Kochan, Mykola Umanets, and Nataliya Pasyechnikova.
2025. "Thermoelectric Measuring Equipment for Perioperative Monitoring of Temperature and Heat Flux Density of the Human Eye in Vitreoretinal Surgery" Sensors 25, no. 4: 999.
https://doi.org/10.3390/s25040999
APA Style
Kobylianskyi, R., Przystupa, K., Lysko, V., Majewski, J., Vikhor, L., Boichuk, V., Zadorozhnyy, O., Kochan, O., Umanets, M., & Pasyechnikova, N.
(2025). Thermoelectric Measuring Equipment for Perioperative Monitoring of Temperature and Heat Flux Density of the Human Eye in Vitreoretinal Surgery. Sensors, 25(4), 999.
https://doi.org/10.3390/s25040999
