Abstract:
See Abstract
Microscope:
RHK Technology, UHV 300
Controls:
UHV SPM 100
Contributors:
Miki Nakayama, Natalie A. Kautz, Tuo Wang, and S. J. Sibener
Reference:
dx.doi.org/10.1021/la204986n | Langmuir
Abstract:
See Abstract
Microscope:
RHK Technology, UHV 300
Controls:
UHV SPM 100
Contributors:
Miki Nakayama, Natalie A. Kautz, Tuo Wang, and S. J. Sibener
Reference:
dx.doi.org/10.1021/la204986n | Langmuir
(c) h-BN/HOPG surface with point defects. (e) STS curves obtained in the region with point defects. (f) In situ PL and S...
Reference: Nature 572, 628 – 633 (2019) doi.org/10.1038/s41586-019-1420-zFIG. 1. STM images of ...
Reference: The Journal of Chemical Physics 147, 044704 (2017); doi: 10.1063/1.4995598FIG. 1. STM im...
Reference: The Journal of Chemical Physics 144, 194703 (2016); doi: 10.1063/1.4949765 FIG....
Reference: Physical Chemistry Chemical Physics 19.30 (2017): 20281-20289Fig. 4 Overview of the sup...
Reference: The Journal of Physical Chemistry C 121.19 (2017): 10470-10475 Figure 3. STM images af...
Reference: Scientific Reports 7 (2017): 43214Figure 3. STM images of quasi-freestanding WSe2 islan...
Reference: Scientific reports 7 (2017): 43451.Figure 2. Scanning tunneling microscopy of the Graph...
FIG. 3. Averaged I-V data obtained for (A) Al7 and (B) Al5 monolayers recorded under various tip loading forces. Solid a...
Fig. 2. STM topography image of carbon-induced islands intercalated between MoS2 layers and Current-voltage (I(V)) spect...
Figure 3. Scanning tunneling microscopy images of Aβ1−16-Cu2+ (a,b) and Aβ1−16 (c,d). Imaging conditions: (a,b) 10...
(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...
Figure 2 | Imaging silicon atoms with terahertz-driven scanning tunnelling microscopy (TD-STM). a. Topographic images of...
Figure 2 | Charge density wave (CDW) transition in MTBs. (a) STM images of a single MTB at low temperatures (120 K) exhi...
FIG. 1. (a) At left, the crystal structure for TbTe3 with a black rectangle outlining the unit cell. The dotted line ind...
Figure 1: Phase-separated Mott/pseudogap electronic structure at 5.5% doping. a, Different spectra in the phase-separate...
Figure 1: STM images of Ag(111) after exposure to AO (atomic oxygen) at Tdep = 490 K. Exposure duration is labeled in th...
Figure 1: The sample is graphene grown on SiC by Joshua Robinson’s group at Penn State. The image is a large sca...
Figure 1: STM images of atomic level oxidation at two sequential exposure times, t = 3 min and t = 4 min. Circles indi...
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...
Figure 1: Zoomed 5 nm image. Using Fourier filtering of the larger raw image, the superlattice is removed, and only the ...
Figure 1: Atomic positions obtained by density functional calculations overlaid on an image created by a scanning tunnel...
Figure 1: Adsorption of DDQT molecules on Au(111) in the intermediate coverage regime. STM image [set point 100 mV, 5 pA...
Non-contact AFM images showing metal-organic coordination chains of platinum(II)dipyridinyl-tetrazine on the reconstruct...
Figure 1: Clean H terminated Si 100 surface 100nm*100nm Scanning parameters: Sample bias: -3V; Current:-0.45nA; Sc...
The whole family of the observed B4PB molecular STs. a,b, Models of the STs(a) and the corresponding STM images of B4PB-...
3C-AFM current maps of Array 1 at various applied magnetic fields between ±434 Oe. Insets show position on a resistance...
This image, recorded with molecular resolution at 150 °C, provides direct evidence for the stability of the metal-organ...
Mid infrared plasmon mode observed in doped semiconductor SrTiO3 fabricated by Argon ion etching. Color represents near...
These figures show the arrangement of 5 and 6-membered rings of D2O on the Pt(111) surface, imaged at 80 K. Credits: Da...
Sequence (A−D) of STM images (100 nm × 100 nm) showing dynamic behavior of a decanethiolate SAM on the Au(111) at roo...
Stability verification of RHK PanScan Freedom showing no influence of environmental or cryostat noise on the In doped Bi...
Stability verification of RHK PanScan Freedom showing no influence of cryostat operation on the Si(111) 7×7 atomic stru...
Atomically resolved STM images from the Pd (110)-Ic(2×2) phase together with atomic structure models. Atomic distances ...
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...
STM image (0.7 V/2 pA) showing two CoPc islands with kinks in different directions of the CoPc lattice. (b) Possible mod...
Initial test of Nazin Group RHK PanScan-STM with Closed Cycle Cryostat provides atomic resolution with HOPG at 14 K. RHK...
Left Image – STM images of (a, b) the buffer layer and (d) QFMLG. Panel (a) shows the long-range periodicity imposed ...
Figure 1. (b) dI/dV measured at an applied load of 72 nN on fluorinated graphene and pristine graphene. A band gap of 2....
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...
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...
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...
Description: Microscope: RHK Technology UHV 300 STM Control System: RHK Technology SPM1000 Control System Credits: Jose ...
Microscope: RHK Technology UHV300 Control System: RHK Technology SPM 1000 Credits: Hidong Kima, Otgonbayar Dugerjava,G...
Microscope: RHK UHV300 Controller: RHK SPM1000 Credits: P. A. Bennett, Zhian He, David J. Smith and F. M. Ross Ph...
Microscope: RHK Technology, ATM 300 Controls: RHK SPM 1000 Contributors: C. Meier, M. Roos, D. Künzel, A. Breitruck, H....
Abstract: See Abstract Microscope: RHK Technology, UHV 300 Controls: UHV SPM 100 Contributors: Miki Nakayama, Natalie A....
(a)–(c) Intensity plots of G(V)/GN as a function of temperature and applied bias for three different films (upper pane...
Porphyrin derivatives are promising candidates for the generation of functional molecular architectures on surfaces. The...
Raw images showing the friction signal in the left-to-right sliding direction. Upper row: 4-layer graphene; lower row: b...
RHEED intensity oscillation monitored on the specular spot during the growth of the LSMO on STO substrate at 900 °C. In...
STM image of organometallic structures formed when dosing phenyl diisocyanide (PDI) on a reconstructed Au(111) surface. ...
Microscope: RHK Technology UHV 7500 AFM/STM Surface-deposition of single molecules on the nanometer scale will be crucia...
Microscope: RHK Technology UHV 7500 AFM/STM Kelvin Probe Measurement on graphene exfoliated on SrTiO3 (Strontium titanat...
Microscope: RHK Technology UHV 300 STM – Ambient STM Imaging and Spectroscopy The image above is a single 4th generati...
Microscope: RHK Technology UHV 300 VT-STM Onset of the Cu2O-like island formation on Cu (100) visualized by CCT-STM imag...
Topography of three substituted Mn acceptors in the first layer of p-GaAs(110) surface Microscope: Custom-Built Low Temp...
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...
At room temperature the sample shows no magnetic features. When the sample is cooled the LCMO goes through a phase trans...
Microscope: Homebuilt Controls: RHK Technology SPM 1000 Control System Description: The topography and near-field images...
Microscope: Zeiss Supra-VP field-emission scanning electron microscope Controls: RHK Technology SPM 1000 Control System ...
Microscope: Home Built Low Temperature STM (10K) Controls: SPM 1000 Control System with the IVP 300 Description: The ima...
Microscope: RHK UHV 7500 Controls: SPM 1000 Control System Description : Large regularly shaped islands on air-cleaved m...
Microscope: RHK UHV 325 Controls: SPM 1000 and PLLPro SPM Control Systems Description : True constant height image with ...
Microscope: Unisoku USM-1300 Controls: SPM 1000 Control System Description: Empty stm state image of Si(111)- v3 x v3 Ag...
Microscope: Homebuilt STM Controls: SPM 1000 Control System featuring XPMProTM Description : Self-assembled monolayer of...
Microscope: PicoSPM Controls: SPM 1000 Control System featuring XPMProTM Description : Imaging conditions: Oxide-sharpen...
Microscope: RHK UHV300 STM Controls: RHK Technology SPM 1000 featuring XPMProTM Description: Imaging condition: PtIr tip...
Microscope: RHK UHV7500 AFM/STM Controls: RHK Technology SPM 1000 featuring XPMProTM and the PLLPro AFM Controller Descr...
Microscope: Veeco Bioscope Controls: RHK Technology SPM 1000 featuring XPMProTM Description: Near-field signal maps of t...
Microscope: SEM Column in RHK’s UHV AFM/STM/SEM Controls: SPM 1000 Control System featuring XPMProTM Description : SEM...
Microscope: Homebuilt Ambient STM Controls: SPM 1000 Control System Description : Imaging Conditions – -1.0 V, 10pA Po...
Microscope: RHK Technology UHV 750 Controls: SPM 1000 Control System Description : STM image of an adalyer of yet undete...
Microscope: RHK Technology UHV 350 Controls: SPM 1000 Control System Description : Conductive probe atomic / friction fo...
Microscope: Homebuilt Low Temperature Microscope Controls: SPM 1000 Control System W/PLLPro AFM Controller Description :...
Microscope: Homebuilt Low Temperature Microscope Controls: SPM 1000 Control System Description : Manipulated single azob...
Microscope: RHK QuadraProbe Four-Point Cryogenic Multisystem Controls: SPM 1000 Control System Description : STM image o...
Microscope: USM-1300 Controls: SPM 1000 Control System Description : Bismuth Strontium Calcium Copper Oxide (BSCCO) supe...
Microscope: Home Built VT UHV Besocke Style STM Controls: SPM 1000 Control System Description : A full coverage of methy...
Microscope: RHK Technology UHV 300 Controls: SPM 1000 Control System Description: Si(111) 7×7 reconstruction imaged at ...
Microscope: Unisoku Ultrahigh LT-STM Controls: SPM 1000 Control System Description : Uniform Pb nanowires of magic thick...
Microscope: Home Built UHV 4K STM Controls: SPM 1000 Control System The experiment was carried out in UHV with a home bu...
Microscope: Omicron STM1 Controls: SPM 1000 Control System Cl-induced etching of Si(100)-(2×1) under conditions of su...
Microscope: Home-built beetle-type low temperature STM Controls: SPM 1000 Control System Description : Thin alumina film...
Microscope: UHV 3000 STM Controls: SPM 1000 Control System Description: Single molecule “nanocar” that contains a ch...
Microscope: RHK QuadraProbe Four-Point STM Multisystem Controls: SPM 1000 Control System Description: The surface is Si(...
Microscope: Home-built atomic force microscope in a He-3 cryostat Controls: SPM 1000 Control System Description: Single-...
Microscope: Home-built Confocal Microscope Controls: SPM 1000 Control System Description: Fluorescence image of DNA depo...
Microscope: RHK UHV 400 STM (Now UHV 700) Controls: SPM 1000 Control System Self-Assembling Nano Corrals Study reveals...
Microscope: USM-1300 Controls: SPM 1000 STS data on Si(111) at 4K numerically differentiated to obtain dI/dV as a func...
Microscope: Homebuilt UHV STM Controls: SPM 1000 Description: STM was used to characterize self-assembled monolayers (SA...
Microscope: Jeol UHV STM Controls: SPM 1000 Description: Silicon(100) taken with JEOL UHV STM and RHK SPM 1000 Control P...
Microscope: RHK UHV 400 Controls: SPM 1000 Description: Indium-enriched islands in a ß2(2×4) reconstruction contrast w...
Microscope: RHK UHV 350 Controls: SPM 1000 Description: STM image of decagonal Al-Ni-Co quasicrystal surface, showing bo...
Microscope: Homebuilt LT STM Controls: SPM 1000 Description: Conductivity (dI/dV) map at zero bias showing location of v...
Microscope: RHK UHV 350 Controls: RHK PLLPro™ + SPM 1000 Description: S. Hirth, F. Ostendorf, M. Reichling (Universit�...
Microscope: RHK UHV 300 Controls: SPM 1000 Description: “Flyswatter for nano-mosquitos” A. Klein, L. Hammer, K. Hein...