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accessible only to graphenic materials (i.e. very high conductibility and electronic
velocities approaching the light limit, widely here confirmed); whereas the bondonic
lifetime was found with two order of magnitude larger than the custom spectroscopi-
cally level fluctuation times so predicting the silanes bondons as truly approached by
the pulsed lasers in time resolved spectroscopy (10
−
16
[s]). Such bondonic detection
and then bondonic control by nano-phtotonic direction may be readily achieved on
the medium term laboratory experimentation (Putz and Ori
2015
). and is envisaged
for further research and subsequent communications.
Acknowledgements
Authors thank Dr. Ottorino Ori for important stimulus and support of
the present study of silanes as silicenes' precursors, on which he made constructive comments
with occasion of his visit as scientific secretary of the “Laboratory of Computational and Struc-
tural Physical-Chemistry for Nanosciences and QSAR” recently accredited by West University of
Timisoara, Faculty of Chemistry, Biology, Geography, at Biology-Chemistry Department, which
are equally acknowledged for working and research facilities provided therefore.
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