TY  - JOUR
AB  - Atomic force microscopy in the non-contact mode (nc-AFM) can provide atom-resolved images of the surface of, in principle, any material independent of its conductivity. Due to the complex mechanisms involved in the contrast formation in nc-AFM imaging, it is, however, far from trivial to identify individual surface atoms or adsorbates from AFM images. In this work, we successfully demonstrate how to extract detailed information about defects and the chemical identity of adsorbates on a metal oxide surface from nc-AFM images. We make use of the observation that the apex of the AFM tip can be altered to expose either a positive or negative tip termination. The complementary set of images recorded with the two tip terminations unambiguously define the ionic sub-lattices and reveal the exact positions of oxygen vacancies and hydroxyl (OH) defects on a TiO2 surface. Chemical specificity is extracted by comparing the characteristic contrast patterns of the defects with results from comprehensive AFM simulations. Our methodology of analysis is generally applicable and may be pivotal for uncovering surface defects and adsorbates on other transition metal oxides designed for heterogeneous catalysis, photo-electrolysis or biocompatibility.
DA  - 2006
DO  - 10.1088/0957-4484/17/14/015
LA  - eng
IS  - 14
M2  - 3436
PY  - 2006
SN  - 0957-4484
SP  - 3436-3441
T2  - Nanotechnology
TI  - Chemical identification of point defects and adsorbates on a metal oxide surface by atomic force microscopy
UR  - https://nbn-resolving.org/urn:nbn:de:0070-pub-29138549
Y2  - 2024-11-22T03:54:39
ER  -