APA
Alaferdov A. V., Savu R., Rackauskas T. A., Rackauskas S., Canesqui M. A., de Lara D. S., Setti G. O., Joanni E., de Trindade G. M., Lima U. B., de Souza A. S. & Moshkalev S. A. (20180718). A wearable, highly stable, strain and bending sensor based on high aspect ratio graphite nanobelts. : Nanotechnology.
Chicago
Alaferdov A V, Savu R, Rackauskas T A, Rackauskas S, Canesqui M A, de Lara D S, Setti G O, Joanni E, de Trindade G M, Lima U B, de Souza A S and Moshkalev S A. 20180718. A wearable, highly stable, strain and bending sensor based on high aspect ratio graphite nanobelts. : Nanotechnology.
Harvard
Alaferdov A. V., Savu R., Rackauskas T. A., Rackauskas S., Canesqui M. A., de Lara D. S., Setti G. O., Joanni E., de Trindade G. M., Lima U. B., de Souza A. S. and Moshkalev S. A. (20180718). A wearable, highly stable, strain and bending sensor based on high aspect ratio graphite nanobelts. : Nanotechnology.
MLA
Alaferdov A V, Savu R, Rackauskas T A, Rackauskas S, Canesqui M A, de Lara D S, Setti G O, Joanni E, de Trindade G M, Lima U B, de Souza A S and Moshkalev S A. A wearable, highly stable, strain and bending sensor based on high aspect ratio graphite nanobelts. : Nanotechnology. 20180718.