Chemistry & Chemical Technology. – 2010. – Vol. 4, No. 1

Permanent URI for this collectionhttps://ena.lpnu.ua/handle/ntb/3182

The scientific-technical journal

It is the scientific-technical journal in English in Ukraine discussing actual problems of chemistry and chemical technology. Compared with other chemical journals Ch&ChT is publishing materials of both theoretical and practical values in such fields as analytical, general organic, physical and inorganic chemistry; chemistry of high molecular compounds; materials science and engineering; chemical kinetics and catalysis; technology of inorganic substances; technology of organic synthesis products; chemical technology of processing of combustible minerals; processes and apparatus of chemical and food productions; biotechnology and ecology.

Chemistry & Chemical Technology : [the scientific-technical journal] / Lviv Polytechnic National University ; editor-in-chief M. Bratychak. – Lviv : Publishing House of Lviv Polytechnic National University, 2010. – Volume 4, number 1. – P. 1–88, V : ill.

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Author: search.filters.author.Abadie, Marc J. M.Has files: Yes

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    TNT-Based sulfonated polynaphthylimides useful as proton exchange membranes for Fuel Cells (PEMFCs)
    (Publishing House of Lviv Polytechnic National University, 2010) Rusanov, Alexander; Tartakovskiy, Vladimir; Bulycheva, Elena; Bugaenko, Margarita; Sanchez, Jean-Yves; Iojoiu, Cristina; Voytekunas, Vanda; Abadie, Marc J. M.
    PEMFC Fuel Cell uses a polymer membrane as an electrolyte. It is used in all applications with dynamic loads, especially in mobile applications but also as combined heat and power units in households. The development of the membranes ion-conductivity has much increased over the last 30 years. Today “Nafion”-based membranes achieve a power density up to 1 W/cm2 active area. In the last 10 years the successful adoption of the PEMFC in different prototypes could be demonstrated. For a market-introduction a few “teething problem” like life-time and costs have to be solved. In this context scientists have high expectations in the development of high-temperature membranes. Cells with these temperatures can be operated over 373 K. Regarding our investigations on the synthesis of aromatic condensation monomers and polymers based on 2,4,6-trinitrotoluene (TNT) we have developed new sidechain- sulfonated aromatic diamines (SCSADAs) and polymers there from. Generally these diamines are prepared using multistep synthetic procedures; as a result they are expensive and unavailable. Our approach shows that the acidic groups on the pendant phenyl groups are more stable to hydrolysis than those with acidic groups directly attached to themain chains.Acidifiedpolymers are stable up to 423 K. З використанням синтезованих ароматично конденсованих мономерів і полімерів на основі 2,4,6- тринітротолуолу (ТНТ) розроблені методи одержання нових ароматичних діамінів, що містять сульфонатні бічні ланцюги та полімерів на їх основі. Незважаючи на те, що такі діаміни описані в літературі, в запропонованій роботі розглянуто новий підхід до створення таких сполук, який є дешевшим і доступнішим. Враховуючи те, що сульфонатні групи знаходяться в бічних ланцюгах до фенольних груп, такі сполуки, порівняно із речовинами, які містять кислотні групи безпосередньо в головному ланцюгу, є більш термостійкими і витримують температуру до 423 К.