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“…31 Our method was able to achieve a superior electrical conductance of the SF-GO biocomposite when compared to some previously reported methods; for example, the use of ascorbic acid and electrospinning. 15,32 Electrical percolation was also observed with 3.5%SGOB1, similar to what was reported by Park et al in their investigation of electrical and thermal conductivities of rGO and polystyrene composites. 33 Despite detecting trace amounts of conjugated nanofiller, the observed improvement in both the mechanical and electrical characteristics of SGOB is an indication of the effectiveness of our reduction method.…”

“…13,14 Unlike primary mammalian neurons, neuroblastoma cells continue to propagate once terminally differentiated. 15 T h i s c o n t e n t i s In this study, a chemical reduction process that utilizes an SF polymer for the removal of oxygen from GO was developed to tune the electrical conductivity, printability, cytotoxicity, solubility, and dispersibility of GO.…”

A 3D Printable Electroconductive Biocomposite Bioink Based on Silk Fibroin-Conjugated Graphene Oxide

“…31 Our method was able to achieve a superior electrical conductance of the SF-GO biocomposite when compared to some previously reported methods; for example, the use of ascorbic acid and electrospinning. 15,32 Electrical percolation was also observed with 3.5%SGOB1, similar to what was reported by Park et al in their investigation of electrical and thermal conductivities of rGO and polystyrene composites. 33 Despite detecting trace amounts of conjugated nanofiller, the observed improvement in both the mechanical and electrical characteristics of SGOB is an indication of the effectiveness of our reduction method.…”

“…13,14 Unlike primary mammalian neurons, neuroblastoma cells continue to propagate once terminally differentiated. 15 T h i s c o n t e n t i s In this study, a chemical reduction process that utilizes an SF polymer for the removal of oxygen from GO was developed to tune the electrical conductivity, printability, cytotoxicity, solubility, and dispersibility of GO.…”

A 3D Printable Electroconductive Biocomposite Bioink Based on Silk Fibroin-Conjugated Graphene Oxide

“…Впровадження технології кваліфікації обладнання забезпечило суттєве зростання експлуатаційної надійності в ядерній енергетиці. Проблема знову стала актуальною, коли сформувалась тенденція подовження термінів позапроектної експлуатації реакторів, які формально виробили свій ресурс, але фактично залишилися працездатними об'єктами [7,8]. За таких обставин постала необхідність пошуку шляхів подальшого підвищення експлуатаційної надійності ядерної енергетики, але тепер уже за об'єктивними показниками реального залишкового ресурсу, тому що в подальшому покладатися лише на ймовірнісні методи оцінки надійності [9] є ризиковим.…”

Problems and means of formation of radiation fields for functional tests and qualifications of the NPP electrical equipment