Electrochemical Oxidation of Thiocyanate on Metal Oxide Electrodes O Kosohin, O Makohoniuk, A Kushmyruk Materials Today: Proceedings 6, 219-226, 2019 | 9 | 2019 |
Electrochemical properties of titanium-based catalytically active electrodes in perchloric acid ÎV Kosohin, A² Kushmyruk, YS Miroshnychenko, OV Linyucheva Materials Science 48 (2), 139-146, 2012 | 9 | 2012 |
Electrochemical behavior of porous titanium electrodes in phosphoric acid AI Kushmyruk, OV Kosohin, OV Linyucheva, VA Reveko, ... Materials Science 51 (3), 429-435, 2015 | 8 | 2015 |
Òåõíîëîã³ÿ íàíåñåííÿ íåìåòàëåâèõ ïîêðèòò³â òà âèðîáíèöòâî ïëàò äðóêîâàíîãî ìîíòàæó ËÀ ßöþê, ΠÊîñîã³í, ÄÞ Óùàïîâñüêèé, Π˳íþ÷åâà, ÞÔ Ôàòººâ Êϲ ³ì. ²ãîðÿ ѳêîðñüêîãî, Âèäàâíèöòâî «Ïîë³òåõí³êà», 2018 | 5 | 2018 |
Hydrated antimonic acid as a solid electrolyte O Kosohin, O Matvieiev, O Linyucheva Materials Today: Proceedings 50, 521-523, 2022 | 3 | 2022 |
Electrochemical Behavior of Porous Titanium Structures in Phosphoric Acid in the Presence of Ions of Copper (²²) AI Kushmyruk, OV Linyucheva, OV Kosohin, YS Miroshnychenko, ... Materials Science 52 (5), 675-679, 2017 | 3 | 2017 |
Ïîëÿðèçàö³éí³ õàðàêòåðèñòèêè ïîðèñòîãî ä³îêñèäíîìàíãàíîâîãî åëåêòðîäó ΠÊîñîã³í, Π˳íþ÷åâà, ÂÏ ×â³ðóê ² ̳æíàð.(²²² âñåóêð.) íàóê.-ïðàêò. êîíô. ñòóäåíò³â, àñï³ðàíò³â òà ìîëîäèõ …, 2008 | 3* | 2008 |
A CARBON DIOXIDE GENERATOR FOR CALIBRATION OF ELECTROCHEMICAL SENSOR OM Matveev, VM Mazanka, OV Kosohin Promising Materials and Processes in Technical Electrochemistry, ed. by VZ …, 2016 | 2 | 2016 |
Èíòåãðèðîâàííûé êîìïëåêñ òåõíè÷åñêèõ ñðåäñòâ êîíòðîëÿ ãàçîâûõ âûáðîñîâ äëÿ ýêîëîãè÷åñêîãî ìîíèòîðèíãà Àà Ëèíþ÷åâ, ÞÑ Ìèðîøíè÷åíêî, À Êîñîãèí ÕV ÊÎÍÔÅÐÅÍÖÈß ÌÎËÎÄÛÕ Ó×ÅÍÛÕ È ÑÒÓÄÅÍÒÎÂ-ÕÈÌÈÊΠÞÆÍÎÃÎ ÐÅÃÈÎÍÀ …, 2013 | 2 | 2013 |
Electrochemical Gas Sensor for Determining Hydrogen Sulfide in Air and Technological Environments. AI Kushmyruk, OV Kosogin, OV Linyucheva, YS Miroshnichenko Naukovi visti NTUU-KPI 81 (1), 2012 | 2* | 2012 |
Ìåä³àòîðí³ ñèñòåìè äëÿ ñåíñîðíèõ çàñîá³â ìîí³òîðèíãó äîâê³ëëÿ ΠÊîñîã³í, À² Êóøìèðóê, Π˳íþ÷åâà, β Áóêåò, Îà ˳íþ÷åâ Promising materials and processes in applied electrochemistry–2020, 2020 | 1 | 2020 |
Electrode materials in the oxidation of rhodanide O Kosohin, A Kushmyruk, O Linyucheva Ïåðñïåêòèâí³ ìàòåð³àëè òà ïðîöåñè â ïðèêëàäí³é åëåêòðîõ³ì³¿-2018, 2018 | 1 | 2018 |
Åëåêòðîõ³ì³÷íå âèçíà÷åííÿ ôîðìàëüäåã³äó Ì Ñîâãóòü, Î Êîñîã³í Òåõí³÷í³ íàóêè òà òåõíîëî㳿, 195-206, 2023 | | 2023 |
Òåõíîëîã³ÿ íàíåñåííÿ ãàëüâàí³÷íèõ ïîêðèòò³â. Ëàáîðàòîðíèé ïðàêòèêóì Ò² Ìîòðîíþê, ΠÊîñîã³í, Ì Áèê, Ñ Ôðîëåíêîâà, ÄÞ Óùàïîâñüêèé Êϲ ³ì. ²ãîðÿ ѳêîðñüêîãî, 2023 | | 2023 |
Âèðîáíèöòâî õ³ì³÷íèõ ïðîäóêò³â åëåêòðîë³çîì. Íàâ÷àëüíèé ïîñ³áíèê äëÿ âèêîíàííÿ ðîçðàõóíêîâî-ãðàô³÷íèõ ðîá³ò ΠÊîñîã³í Êϲ ³ì. ²ãîðÿ ѳêîðñüêîãî, 2023 | | 2023 |
ÌÅIJÀÒÎÐͲ ÑÈÑÒÅÌÈ, ÏÐÈÄÀÒͲ ÄËß ÂÈÊÎÐÈÑÒÀÍÍß Â ÅËÅÊÒÐÎղ̲×ÍÈÕ ÑÈÑÒÅÌÀÕ ÄËß ÂÈÇÍÀ×ÅÍÍß Â²ÄÍÎÂÍÈÕ ÃÀDz Ä Ïàâëåíêî, ΠÊîñîã³í, À² Êóøìèðóê ̳æäèñöèïë³íàðí³ íàóêîâ³ äîñë³äæåííÿ â ðåàë³ÿõ ñüîãîäåííÿ, 2022 | | 2022 |
ANODE MATERIALS FOR OXIDATION OF OXALIC ACID O Kosohin, V Mazanka Journal of Chemical Technology and Metallurgy 57 (1), 137-140, 2022 | | 2022 |
Anode material for oxidation of organic acids O Kosohin, V Mazanka Materials Today: Proceedings 50, 518-520, 2022 | | 2022 |
Åëåêòðîõ³ì³÷íèé ñåíñîð êèñíþ äëÿ âîäíîãî ñåðåäîâèùà ² ϳ÷êîðñüêèé, β Áóêåò, Π˳íþ÷åâà, À² Êóøìèðóê, ΠÊîñîã³í Promising materials and processes in applied electrochemistry–2020, 2020 | | 2020 |
Òåõí³êà õ³ì³÷íîãî åêñïåðèìåíòó : ϳäðó÷íèê ΠÊîñîã³í, Π˳íþ÷åâà, ÞÑ Ì³ðîøíè÷åíêî Êϲ ³ì. ²ãîðÿ ѳêîðñüêîãî, 2019 | | 2019 |