Nanohybrid scaffolds with luminescent remote control
Sochilina A. V., Savelyev A. G., Sholina N. V., Karimov D. N., Nechaev A. V., Khaydukov E. V., Generalova A. N.
EPJ Web of Conferences
Vol.190, Num.04022
Опубликовано: 2018
Тип ресурса: Материалы конференции (Статья)
DOI:10.1051/epjconf/201819004022
Аннотация:
We report on hybrid nanocomposite scaffolds on the base of cross-linked hyaluronic acid derivative with embedded upconversion nanoparticles (UCNPs). The unique photoluminescence properties of specially designed hydrophilic UCNPs enable visualization of hydrogel using NIR irradiation. Formation of scaffold structure can be produced by means of 3D printing or direct laser writing. For the first time, we present visualization of nanohybrid scaffolds in live small animal aiming to demonstrate new possibilities of their luminescent remote control for tissue engineering. © The Authors, published by EDP Sciences, 2018.
Язык текста: Английский
ISSN: 2101-6275
Sochilina A. V.
Savelyev A. G. Aleksandr Georgievich 1986-
Sholina N. V. Natal`ya Valerievna 1992-
Karimov D. N.
Nechaev A. V.
Khaydukov E. V. Evgenij Valeryevich 1984-
Generalova A. N.
Сочилина А. В.
Савельев А. Г. Александр Георгиевич 1986-
Шолина Н. В. Наталья Валериевна 1992-
Каримов Д. Н.
Нечаев А. В.
Хайдуков Е. В. Евгений Валерьевич 1984-
Генералова А. Н.
Nanohybrid scaffolds with luminescent remote control
Текст визуальный непосредственный
EPJ Web of Conferences
Vol.190 Num.04022
2018
Материалы конференции (Статья)
We report on hybrid nanocomposite scaffolds on the base of cross-linked hyaluronic acid derivative with embedded upconversion nanoparticles (UCNPs). The unique photoluminescence properties of specially designed hydrophilic UCNPs enable visualization of hydrogel using NIR irradiation. Formation of scaffold structure can be produced by means of 3D printing or direct laser writing. For the first time, we present visualization of nanohybrid scaffolds in live small animal aiming to demonstrate new possibilities of their luminescent remote control for tissue engineering. © The Authors, published by EDP Sciences, 2018.