In Situ Nanomechanical
Measurements of Interfacial
Strength in Membrane-Embedded Chemically Functionalized Si Microwires
for Flexible Solar Cells
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Abstract
Arrays of vertically aligned Si microwires embedded in
polydimethylsiloxane
(PDMS) have emerged as a promising candidate for use in solar energy
conversion devices. Such structures are lightweight and concurrently
demonstrate competitive efficiency and mechanical flexibility. To
ensure reliable functioning under bending and flexing, strong interfacial
adhesion between the nanowire and the matrix is needed. In situ uniaxial
tensile tests of individual, chemically functionalized, Si microwires embedded in a compliant
PDMS matrix reveal that chemical functionality on Si microwire surfaces
is directly correlated with interfacial adhesion strength. Chemical
functionalization can therefore serve as an effective methodology
for accessing a wide range of interfacial adhesion between the
rigid constituents and the soft polymer matrix; the adhesion can be
quantified by measuring the mechanical strength of such systems