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W2895552223 endingPage "61" @default.
W2895552223 startingPage "37" @default.
W2895552223 abstract "Two-dimensional (2D) materials have been one of the most extensively studied classes of modern materials, due to their astonishing chemical, optical, electronic, and mechanical properties, which are different from their bulk counterparts. The edges, grain boundaries, local strain, chemical bonding, molecular orientation, and the presence of nanodefects in these 2D monolayers (MLs) will strongly affect their properties. Currently, it is still challenging to investigate such atomically thin 2D monolayers with nanoscale spatial resolution, especially in a label-free and non-destructive way. Tip-enhanced Raman spectroscopy (TERS), which combines the merits of both scanning probe microscopy (SPM) and Raman spectroscopy, has become a powerful analytical technique for studying 2D monolayers, because it allows very high-resolution and high-sensitivity local spectroscopic investigation and imaging and also provides rich chemical information. This review provides a summary of methods to study 2D monolayers and an overview of TERS, followed by an introduction to the current state-of-the-art and theoretical understanding the spatial resolution in TERS experiments. Surface selection rules are also discussed. We then focus on the capabilities and potential of TERS for nanoscale chemical imaging of 2D materials, such as graphene, transition metal dichalcogenides (TMDCs), and 2D polymers. We predict that TERS will become widely accepted and used as a versatile imaging tool for chemical investigation of 2D materials at the nanoscale. Graphical abstract ᅟ." @default.
W2895552223 created "2018-10-12" @default.
W2895552223 creator A5001571695 @default.
W2895552223 creator A5042178604 @default.
W2895552223 date "2018-10-10" @default.
W2895552223 modified "2023-09-30" @default.
W2895552223 title "Tip-enhanced Raman spectroscopy: principles, practice, and applications to nanospectroscopic imaging of 2D materials" @default.
W2895552223 cites W1266157635 @default.
W2895552223 cites W1450920268 @default.
W2895552223 cites W1478337505 @default.
W2895552223 cites W1494572776 @default.
W2895552223 cites W1516823000 @default.
W2895552223 cites W1557563348 @default.
W2895552223 cites W1578476670 @default.
W2895552223 cites W1581187585 @default.
W2895552223 cites W1636616099 @default.
W2895552223 cites W1644976767 @default.
W2895552223 cites W1780639268 @default.
W2895552223 cites W1795625810 @default.
W2895552223 cites W1833276053 @default.
W2895552223 cites W1925060808 @default.
W2895552223 cites W1927421941 @default.
W2895552223 cites W1939221954 @default.
W2895552223 cites W1963860368 @default.
W2895552223 cites W1965171843 @default.
W2895552223 cites W1965321405 @default.
W2895552223 cites W1966096736 @default.
W2895552223 cites W1967765688 @default.
W2895552223 cites W1970851581 @default.
W2895552223 cites W1972654936 @default.
W2895552223 cites W1972704923 @default.
W2895552223 cites W1974428145 @default.
W2895552223 cites W1976469993 @default.
W2895552223 cites W1976481716 @default.
W2895552223 cites W1977412675 @default.
W2895552223 cites W1979872756 @default.
W2895552223 cites W1983905121 @default.
W2895552223 cites W1984080703 @default.
W2895552223 cites W1984217894 @default.
W2895552223 cites W1987134623 @default.
W2895552223 cites W1992858116 @default.
W2895552223 cites W1993198696 @default.
W2895552223 cites W1994036271 @default.
W2895552223 cites W1998779803 @default.
W2895552223 cites W1999640324 @default.
W2895552223 cites W2000952510 @default.
W2895552223 cites W2003661543 @default.
W2895552223 cites W2007328737 @default.
W2895552223 cites W2007429028 @default.
W2895552223 cites W2008243211 @default.
W2895552223 cites W2009952406 @default.
W2895552223 cites W2010062682 @default.
W2895552223 cites W2011549337 @default.
W2895552223 cites W2011899447 @default.
W2895552223 cites W2013074534 @default.
W2895552223 cites W2013502720 @default.
W2895552223 cites W2014691485 @default.
W2895552223 cites W2014809988 @default.
W2895552223 cites W2017000832 @default.
W2895552223 cites W2017301115 @default.
W2895552223 cites W2017987624 @default.
W2895552223 cites W2018259385 @default.
W2895552223 cites W2018452851 @default.
W2895552223 cites W2023095522 @default.
W2895552223 cites W2023104555 @default.
W2895552223 cites W2023299338 @default.
W2895552223 cites W2024236859 @default.
W2895552223 cites W2024966938 @default.
W2895552223 cites W2026348767 @default.
W2895552223 cites W2026558686 @default.
W2895552223 cites W2027540164 @default.
W2895552223 cites W2027563442 @default.
W2895552223 cites W2027700316 @default.
W2895552223 cites W2028736267 @default.
W2895552223 cites W2033947280 @default.
W2895552223 cites W2034421208 @default.
W2895552223 cites W2035988347 @default.
W2895552223 cites W2036908078 @default.
W2895552223 cites W2037351460 @default.
W2895552223 cites W2039087471 @default.
W2895552223 cites W2040104484 @default.
W2895552223 cites W2041754208 @default.
W2895552223 cites W2043007071 @default.
W2895552223 cites W2043231889 @default.
W2895552223 cites W2045386991 @default.
W2895552223 cites W2045391332 @default.
W2895552223 cites W2045759975 @default.
W2895552223 cites W2051276514 @default.
W2895552223 cites W2051361054 @default.
W2895552223 cites W2053697885 @default.
W2895552223 cites W2054455698 @default.
W2895552223 cites W2054792262 @default.
W2895552223 cites W2055567545 @default.
W2895552223 cites W2055880283 @default.
W2895552223 cites W2056280638 @default.
W2895552223 cites W2058122340 @default.
W2895552223 cites W2058796234 @default.
W2895552223 cites W2059535250 @default.