Chia Seng Chang scite author profile

Recently, monolayers of layered transition metal dichalcogenides (LTMD), such as MX2 (M = Mo, W and X = S, Se), have been reported to exhibit significant spin-valley coupling and optoelectronic performances because of the unique structural symmetry and band structures. Monolayers in this class of materials offered a burgeoning field in fundamental physics, energy harvesting, electronics, and optoelectronics. However, most studies to date are hindered by great challenges on the synthesis and transfer of high-quality LTMD monolayers. Hence, a feasible synthetic process to overcome the challenges is essential. Here, we demonstrate the growth of high-quality MS2 (M = Mo, W) monolayers using ambient-pressure chemical vapor deposition (APCVD) with the seeding of perylene-3,4,9,10-tetracarboxylic acid tetrapotassium salt (PTAS). The growth of a MS2 monolayer is achieved on various surfaces with a significant flexibility to surface corrugation. Electronic transport and optical performances of the as-grown MS2 monolayers are comparable to those of exfoliated MS2 monolayers. We also demonstrate a robust technique in transferring the MS2 monolayer samples to diverse surfaces, which may stimulate the progress on the class of materials and open a new route toward the synthesis of various novel hybrid structures with LTMD monolayer and functional materials.

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Spatially Resolved Imaging on Photocarrier Generations and Band Alignments at Perovskite/PbI₂ Heterointerfaces of Perovskite Solar Cells by Light-Modulated Scanning Tunneling Microscopy

Shih

Hsieh

et al. 2017

Nano Lett.

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The presence of the PbI passivation layers at perovskite crystal grains has been found to considerably affect the charge carrier transport behaviors and device performance of perovskite solar cells. This work demonstrates the application of a novel light-modulated scanning tunneling microscopy (LM-STM) technique to reveal the interfacial electronic structures at the heterointerfaces between CHNHPbI perovskite crystals and PbI passivation layers of individual perovskite grains under light illumination. Most importantly, this technique enabled the first observation of spatially resolved mapping images of photoinduced interfacial band bending of valence bands and conduction bands and the photogenerated electron and hole carriers at the heterointerfaces of perovskite crystal grains. By systematically exploring the interfacial electronic structures of individual perovskite grains, enhanced charge separation and reduced back recombination were observed when an optimal design of interfacial PbI passivation layers consisting of a thickness less than 20 nm at perovskite crystal grains was applied.

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Manifestation of Work Function Difference in High Order Gundlach Oscillation

Lin

et al. 2007

Phys. Rev. Lett.

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Gundlach oscillation (or the standing-wave state) is a general phenomenon manifesting in the tunneling spectrum acquired from a metal surface using scanning tunneling spectroscopy. Previous studies relate the energy shift between peaks of the lowest-order Gundlach oscillation observed on the thin film and the metal substrate to the difference in their work functions. By observing Gundlach oscillations on Ag/Au(111), Ag/Cu(111), and Co/Cu(111) systems, we demonstrate that the work function difference is not the energy shift of the lowest order but the ones of higher order where a constant energy shift exhibits. Higher order Gundlach oscillations can thus be applied to determine the work function of thin metal films precisely.

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Field evaporation between a gold tip and a gold surface in the scanning tunneling microscope configuration

1994

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Parallel p–n Junctions across Nanowires by One-Step Ex Situ Doping

et al. 2014

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The bottom-up synthesis of nanoscale building blocks is a versatile approach for the formation of a vast array of materials with controlled structures and compositions. This approach is one of the main driving forces for the immense progress in materials science and nanotechnology witnessed over the past few decades. Despite the overwhelming advances in the bottom-up synthesis of nanoscale building blocks and the fine control of accessible compositions and structures, certain aspects are still lacking. In particular, the transformation of symmetric nanostructures to asymmetric nanostructures by highly controlled processes while preserving the modified structural orientation still poses a significant challenge. We present a one-step ex situ doping process for the transformation of undoped silicon nanowires (i-Si NWs) to p-type/n-type (p-n) parallel p-n junction configuration across NWs. The vertical p-n junctions were measured by scanning tunneling microscopy (STM) in concert with scanning tunneling spectroscopy (STS), termed STM/S, to obtain the spatial electronic properties of the junction formed across the NWs. Additionally, the parallel p-n junction configuration was characterized by off-axis electron holography in a transmission electron microscope to provide an independent verification of junction formation. The doping process was simulated to elucidate the doping mechanisms involved in the one-step p-i-n junction formation.

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Chia Seng Chang

Synthesis and Transfer of Single-Layer Transition Metal Disulfides on Diverse Surfaces

Spatially Resolved Imaging on Photocarrier Generations and Band Alignments at Perovskite/PbI₂ Heterointerfaces of Perovskite Solar Cells by Light-Modulated Scanning Tunneling Microscopy

Manifestation of Work Function Difference in High Order Gundlach Oscillation

Field evaporation between a gold tip and a gold surface in the scanning tunneling microscope configuration

Parallel p–n Junctions across Nanowires by One-Step Ex Situ Doping

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Chia Seng Chang

Synthesis and Transfer of Single-Layer Transition Metal Disulfides on Diverse Surfaces

Spatially Resolved Imaging on Photocarrier Generations and Band Alignments at Perovskite/PbI2 Heterointerfaces of Perovskite Solar Cells by Light-Modulated Scanning Tunneling Microscopy

Manifestation of Work Function Difference in High Order Gundlach Oscillation

Field evaporation between a gold tip and a gold surface in the scanning tunneling microscope configuration

Parallel p–n Junctions across Nanowires by One-Step Ex Situ Doping

Contact Info

Product

Resources

About

Spatially Resolved Imaging on Photocarrier Generations and Band Alignments at Perovskite/PbI₂ Heterointerfaces of Perovskite Solar Cells by Light-Modulated Scanning Tunneling Microscopy