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Microscope: RHK UHV 300 Controls: SPM 1000 Description: “Flyswatter for nano-mosquitos” A. Klein, L. Hammer, K. Hein...

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Microscope: RHK UHV 350 Controls: RHK PLLPro™ + SPM 1000 Description: S. Hirth, F. Ostendorf, M. Reichling (Universit�...

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Microscope: Homebuilt LT STM Controls: SPM 1000 Description: Conductivity (dI/dV) map at zero bias showing location of v...

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Microscope: RHK UHV 350 Controls: SPM 1000 Description: STM image of decagonal Al-Ni-Co quasicrystal surface, showing bo...

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Microscope: RHK UHV 400 Controls: SPM 1000 Description: Indium-enriched islands in a ß2(2×4) reconstruction contrast w...

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Microscope: Jeol UHV STM Controls: SPM 1000 Description: Silicon(100) taken with JEOL UHV STM and RHK SPM 1000 Control P...

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Microscope: Homebuilt UHV STM Controls: SPM 1000 Description: STM was used to characterize self-assembled monolayers (SA...

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Microscope: USM-1300 Controls: SPM 1000 STS data on Si(111) at 4K numerically differentiated to obtain dI/dV as a func...

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Microscope: RHK UHV 400 STM (Now UHV 700) Controls: SPM 1000 Control System Self-Assembling Nano Corrals Study reveals...

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Microscope: Home-built Confocal Microscope Controls: SPM 1000 Control System Description: Fluorescence image of DNA depo...

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Microscope: Home-built atomic force microscope in a He-3 cryostat Controls: SPM 1000 Control System Description: Single-...

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Microscope: RHK QuadraProbe Four-Point STM Multisystem Controls: SPM 1000 Control System Description: The surface is Si(...

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Microscope: UHV 3000 STM Controls: SPM 1000 Control System Description: Single molecule “nanocar” that contains a ch...

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Microscope: Home-built beetle-type low temperature STM Controls: SPM 1000 Control System Description : Thin alumina film...

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Microscope: Omicron STM1 Controls:  SPM 1000 Control System Cl-induced etching of Si(100)-(2×1) under conditions of su...

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Microscope: Home Built UHV 4K STM Controls: SPM 1000 Control System The experiment was carried out in UHV with a home bu...

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Microscope: Unisoku Ultrahigh LT-STM Controls: SPM 1000 Control System Description : Uniform Pb nanowires of magic thick...

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Microscope: RHK Technology UHV 300 Controls: SPM 1000 Control System Description: Si(111) 7×7 reconstruction imaged at ...

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Microscope: Home Built VT UHV Besocke Style STM Controls: SPM 1000 Control System Description : A full coverage of methy...

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Microscope: USM-1300 Controls: SPM 1000 Control System Description : Bismuth Strontium Calcium Copper Oxide (BSCCO) supe...

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Microscope: RHK QuadraProbe Four-Point Cryogenic Multisystem Controls: SPM 1000 Control System Description : STM image o...

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Microscope: Homebuilt Low Temperature Microscope Controls: SPM 1000 Control System Description : Manipulated single azob...

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Microscope: Homebuilt Low Temperature Microscope Controls: SPM 1000 Control System W/PLLPro AFM Controller Description :...

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Microscope: RHK Technology UHV 350 Controls: SPM 1000 Control System Description : Conductive probe atomic / friction fo...

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Microscope: RHK Technology UHV 750 Controls: SPM 1000 Control System Description : STM image of an adalyer of yet undete...

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Microscope: Homebuilt Ambient STM Controls: SPM 1000 Control System Description : Imaging Conditions – -1.0 V, 10pA Po...

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Microscope: SEM Column in RHK’s UHV AFM/STM/SEM Controls: SPM 1000 Control System featuring XPMProTM Description : SEM...

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Microscope: Veeco Bioscope Controls: RHK Technology SPM 1000 featuring XPMProTM Description: Near-field signal maps of t...

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Microscope: RHK UHV7500 AFM/STM Controls: RHK Technology SPM 1000 featuring XPMProTM and the PLLPro AFM Controller Descr...

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Microscope: RHK UHV300 STM Controls: RHK Technology SPM 1000 featuring XPMProTM Description: Imaging condition: PtIr tip...

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Microscope: PicoSPM Controls: SPM 1000 Control System featuring XPMProTM Description : Imaging conditions: Oxide-sharpen...

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Microscope: Homebuilt STM Controls: SPM 1000 Control System featuring XPMProTM Description : Self-assembled monolayer of...

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Microscope: Unisoku USM-1300 Controls: SPM 1000 Control System Description: Empty stm state image of Si(111)- v3 x v3 Ag...

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Microscope: RHK UHV 325 Controls: SPM 1000 and PLLPro SPM Control Systems Description : True constant height image with ...

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Microscope: RHK UHV 7500 Controls: SPM 1000 Control System Description : Large regularly shaped islands on air-cleaved m...

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Microscope: Home Built Low Temperature STM (10K) Controls: SPM 1000 Control System with the IVP 300 Description: The ima...

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Microscope: Zeiss Supra-VP field-emission scanning electron microscope Controls: RHK Technology SPM 1000 Control System ...

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Microscope: Homebuilt Controls: RHK Technology SPM 1000 Control System Description: The topography and near-field images...

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At room temperature the sample shows no magnetic features. When the sample is cooled the LCMO goes through a phase trans...

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The image was taken at 50 mV and 100 pA, and at 83 K, with a home-built STM operating in constant current mode. It shows...

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Topography of three substituted Mn acceptors in the first layer of p-GaAs(110) surface Microscope: Custom-Built Low Temp...

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Microscope: RHK Technology UHV 300 VT-STM Onset of the Cu2O-like island formation on Cu (100) visualized by CCT-STM imag...

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Microscope: RHK Technology UHV 300 STM – Ambient STM Imaging and Spectroscopy The image above is a single 4th generati...

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Microscope: RHK Technology UHV 7500 AFM/STM Kelvin Probe Measurement on graphene exfoliated on SrTiO3 (Strontium titanat...

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Microscope: RHK Technology UHV 7500 AFM/STM Surface-deposition of single molecules on the nanometer scale will be crucia...

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STM image of organometallic structures formed when dosing phenyl diisocyanide (PDI) on a reconstructed Au(111) surface. ...

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RHEED intensity oscillation monitored on the specular spot during the growth of the LSMO on STO substrate at 900 °C. In...

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Raw images showing the friction signal in the left-to-right sliding direction. Upper row: 4-layer graphene; lower row: b...

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Porphyrin derivatives are promising candidates for the generation of functional molecular architectures on surfaces. The...

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(a)–(c) Intensity plots of G(V)/GN as a function of temperature and applied bias for three different films (upper pane...

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Abstract: See Abstract Microscope: RHK Technology, UHV 300 Controls: UHV SPM 100 Contributors: Miki Nakayama, Natalie A....

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Microscope: RHK Technology, ATM 300 Controls: RHK SPM 1000 Contributors: C. Meier, M. Roos, D. Künzel, A. Breitruck, H....

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Microscope:  RHK UHV300 Controller:  RHK SPM1000 Credits: P. A. Bennett, Zhian He, David J. Smith and F. M. Ross Ph...

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Microscope: RHK Technology UHV300 Control System: RHK Technology SPM 1000 Credits: Hidong Kima, Otgonbayar Dugerjava,G...

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Description: Microscope: RHK Technology UHV 300 STM Control System: RHK Technology SPM1000 Control System Credits: Jose ...

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Figure 6. (a) Scanning electron microscope image of a 200 nm wide Pt line; (b) 3D topographic of a 2.5 μm x 2.5 μm reg...

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Fig. 1. (A) An STM topography scan of Ti0.87O2 nanosheets on Pt(200 nm)/Si of an area of 0.83 um × 0.83 um. Only a fai...

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STM images of the Cu(100) surface with TPA and NaCl, after annealing to 160 °C. (a) Part of a large island made up of t...

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Figure 1. (b) dI/dV measured at an applied load of 72 nN on fluorinated graphene and pristine graphene. A band gap of 2....

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Left Image – STM images of (a, b) the buffer layer and (d) QFMLG. Panel (a) shows the long-range periodicity imposed ...

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Initial test of Nazin Group RHK PanScan-STM with Closed Cycle Cryostat provides atomic resolution with HOPG at 14 K. RHK...

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STM image (0.7 V/2 pA) showing two CoPc islands with kinks in different directions of the CoPc lattice. (b) Possible mod...

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12nm x 12nm STM and IETS maps simultaneously acquired on the surface of the 9 ML Pb island at a 1 nA tunneling current.T...

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Atomically resolved STM images from the Pd (110)-Ic(2×2) phase together with atomic structure models. Atomic distances ...

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Stability verification of RHK PanScan Freedom showing no influence of cryostat operation on the Si(111) 7×7 atomic stru...

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Stability verification of RHK PanScan Freedom showing no influence of environmental or cryostat noise on the In doped Bi...

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Sequence (A−D) of STM images (100 nm × 100 nm) showing dynamic behavior of a decanethiolate SAM on the Au(111) at roo...

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These figures show the arrangement of 5 and 6-membered rings of D2O on the Pt(111) surface, imaged at 80 K. Credits: Da...

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Mid infrared plasmon mode observed in doped semiconductor SrTiO3 fabricated by Argon ion etching. Color represents near...

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This image, recorded with molecular resolution at 150 °C, provides direct evidence for the stability of the metal-organ...

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3C-AFM current maps of Array 1 at various applied magnetic fields between ±434 Oe. Insets show position on a resistance...

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The whole family of the observed B4PB molecular STs. a,b, Models of the STs(a) and the corresponding STM images of B4PB-...

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Figure 1: Clean H terminated Si 100 surface 100nm*100nm Scanning parameters: Sample bias: -3V;   Current:-0.45nA;  Sc...

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Non-contact AFM images showing metal-organic coordination chains of platinum(II)dipyridinyl-tetrazine on the reconstruct...

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Figure 1: Adsorption of DDQT molecules on Au(111) in the intermediate coverage regime. STM image [set point 100 mV, 5 pA...

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Figure 1: Atomic positions obtained by density functional calculations overlaid on an image created by a scanning tunnel...

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Figure 1: Zoomed 5 nm image. Using Fourier filtering of the larger raw image, the superlattice is removed, and only the ...

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Figure 1:  Empty states STM images of 0.4 ML Si deposition on bare Si (100) surface at 250 ◦C (deposition rate is 0.4...

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Figure 1:  STM images of atomic level oxidation at two sequential exposure times, t = 3 min and t = 4 min. Circles indi...

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Figure 1:  The sample is graphene grown on SiC by Joshua Robinson’s group at Penn State. The image is a large sca...

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Figure 1: STM images of Ag(111) after exposure to AO (atomic oxygen) at Tdep = 490 K. Exposure duration is labeled in th...

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Figure 1: Phase-separated Mott/pseudogap electronic structure at 5.5% doping. a, Different spectra in the phase-separate...

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FIG. 1. (a) At left, the crystal structure for TbTe3 with a black rectangle outlining the unit cell. The dotted line ind...

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Figure 2 | Charge density wave (CDW) transition in MTBs. (a) STM images of a single MTB at low temperatures (120 K) exhi...

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Figure 2 | Imaging silicon atoms with terahertz-driven scanning tunnelling microscopy (TD-STM). a. Topographic images of...

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(c) STM image of a branch of a fractal. The sample bias is 0.5 V and the tunnel current is 0.2 nA. (d) Differential cond...

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Figure 3. Scanning tunneling microscopy images of Aβ1−16-Cu2+ (a,b) and Aβ1−16 (c,d). Imaging conditions: (a,b) 10...

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Fig. 2. STM topography image of carbon-induced islands intercalated between MoS2 layers and Current-voltage (I(V)) spect...

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FIG. 3. Averaged I-V data obtained for (A) Al7 and (B) Al5 monolayers recorded under various tip loading forces. Solid a...

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Reference: Scientific reports 7 (2017): 43451. Figure 2. Scanning tunneling microscopy of the Graph...

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Reference: Scientific Reports 7 (2017): 43214 Figure 3. STM images of quasi-freestanding WSe2 islan...

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Reference: The Journal of Physical Chemistry C 121.19 (2017): 10470-10475 Figure 3. STM images af...

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Reference: Physical Chemistry Chemical Physics 19.30 (2017): 20281-20289 Fig. 4 Overview of the sup...

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Reference: The Journal of Chemical Physics 144, 194703 (2016); doi: 10.1063/1.4949765 FIG....

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Reference: The Journal of Chemical Physics 147, 044704 (2017); doi: 10.1063/1.4995598 FIG. 1. STM im...

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