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In situ simultaneous SAXS patterns at selected elongation values. The arrows indicate the stretching direction.

In situ snapshots of the local profiles of Fe concentration in SrTiOs as a function of time, using the digital camera technique .

In situ SPAIR Spectra recorded on a RuEiec20 Pt-C electrode in the course of the oxidation of a CO saturating layer adsorbed at 0. IV vs. RHE in 0.1 M HCIO4. Potential is increased from O.IV v. RHE to 0.95 V vs. RHE by 50 mV step. 2048 interferograms recorded in each potential .

In situ spectroelectrochemical cycling data for Glass-ITO PEDOT Ion Jelly PB ITO-Glass. A - Chronoabsorptometry recorded at 700nm B - Square-wave switching between -IV

In situ spectroelectrochemistry spectra and band structure of poly-phenylene-ORSOa during electrochemical oxidation

In situ spectroelectrochemistry spectra and band structure of poly-phenylene-ORSOs during electrochemical reduction

In situ SPR curves of

In situ static Li NMR of a disordered carbon-Li metal battery cell taken over three charge and discharge cycles. Peaks at 0 ppm and 260 ppm correspond to lithium in the electrolyte SEI and Li metal anode respectively. Resonances in the range of 0-140 ppm are assigned to Li environments inserted into the disordered carbon

In situ STM configuration, schematic. In this four-electrode configuration the working electrode potential is controlled relative to the electrochemical reference electrode tip potential relative to the working electrode potential. The counter electrode enables recording of electrochentical processes on the working electrode by the independently controlled tip electrode.

In situ STM im es in the system Ag. Reprinted by permission of Muwer Academic Publishers.

In situ STM image

In situ STM image and model of the physisorbed phase of uracil. Reprinted from ref 28 with permission.

In situ STM image for approximately 2 hr. When the imaging region was enlarged to 4000 nm, ruthenium deposition was observed outside of the tip-scan region .

In situ STM image of a compressed 2D hep Pbads overlayer showing a higher order superstructure with moir6 pattern cf.

In situ STM image of a compressed 2D hep Pbads overlayer showing a superstructure with moird pattern in the system Ag2 10 M HCIO4 at Af 30 mV and

In situ STM image of a compressed 2D hep Tlads overlayer showii a higher order superstructure with moir6 pattern cf.

In situ STM image of a first-order phase transformation of a Pbads overlayer on Au

In situ STM image of Cu and Ag nano-disk structures on HOPG in the systems deposited from a 0.5 mM CUSO4 and a 0.5 mM AgF solution, respectively at T 298 K . Reprinted by permission of Kluwer Academic Publishers.

In situ STM image of guanine layer on HOPG. Reprinted from Ref. 226, Copyright with pennission from Elsevier.

In situ STM image of poly film on HOPG after subsequent Ag deposition. Eleetrolyte

In situ STM image of the first Tlads overlayer in the system Ag.

In situ STM image showing a growth spiral on a flame annealed Ag lO M CUSO4 5 x lO M H2S04at 7 298 Kand A 80mV 5.511.

In situ STM image showing the frazzled appearance of a monatomic step on Aa 10 MCuS04 5x1 T2 M H2S04 at E 60 mV vs. SCE and T 298 K. Reprinted from E. Budevski, G. Staikov, and W. J. Lorenz, Electrochemical Phase Formation and Growth, p. 22, copyright 1996John Wiley Sons. Reproduced by permission of John Wiley Sons, Ltd.

In situ STM image showing the frazzled appearance of a monatomic step on Ag-electrolyte interface, p. L495,1995, with kind permission of Elsevier Science.

In situ STM images illustrating the influence of the electrode potential on the surface structure of a Au



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