Your search keyword '"Yan HJ"' showing total 8 results

1. General Space-Confined On-Substrate Fabrication of Thickness-Adjustable Hybrid Perovskite Single-Crystalline Thin Films.

Author

Chen YX, Ge QQ, Shi Y, Liu J, Xue DJ, Ma JY, Ding J, Yan HJ, Hu JS, and Wan LJ

Abstract

Organic-inorganic hybrid perovskite single-crystalline thin films (SCTFs) are promising for enhancing photoelectric device performance due to high carrier mobility, long diffusion length, and carrier lifetime. However, bulk perovskite single crystals available today are not suitable for practical device application due to the unfavorable thickness. Herein, we report a facile space-confined solution-processed strategy to on-substrate grow various hybrid perovskite SCTFs in a size of submillimeter with adjustable thicknesses from nano- to micrometers. These SCTFs exhibit photoelectric properties comparable to bulk single crystals with low defect density and good air stability. The clear thickness-dependent colors allow fast visual selection of SCTFs with a suitable thickness for specific device application. The present substrate-independent growth of perovskite SCTFs opens up opportunities for on-chip fabrication of diverse high-performance devices.

Published

2016

2. Formation of Halogen Bond-Based 2D Supramolecular Assemblies by Electric Manipulation.

Author

Zheng QN, Liu XH, Chen T, Yan HJ, Cook T, Wang D, Stang PJ, and Wan LJ

Abstract

Halogen bonding has attracted much attention recently as an important driving force for supramolecular assembly and crystal engineering. Herein, we demonstrate for the first time the formation of a halogen bond-based open porous network on a graphite surface using ethynylpyridine and aryl-halide based building blocks. We found that the electrical stimuli of a scanning tunneling microscopy (STM) tip can induce the formation of a binary supramolecular structure on the basis of halogen bond formation between terminal pyridyl groups and perfluoro-iodobenzene. This electrical manipulation method can be applied to engineer a series of linear or porous structures by selecting halogen bond donor and acceptor fragments with different symmetries, as the directional interactions ultimately determine the structural outcome.

Published

2015

3. Direct probing of the structure and electron transfer of fullerene/ferrocene hybrid on Au(111) electrodes by in situ electrochemical STM.

Author

Chen T, Wang D, Gan LH, Matsuo Y, Gu JY, Yan HJ, Nakamura E, and Wan LJ

Abstract

The electron donor-acceptor dyads are an emerging class of materials showing important applications in nonlinear optics, dye-sensitized solar cells, and molecular electronics. Investigation of their structure and electron transfer at the molecular level provides insights into the structure-property relationship and can benefit the design and preparation of electron donor-acceptor dyad materials. Herein, the interface adstructure and electron transfer of buckyferrocene Fe(C60Me5)Cp, a typical electron donor-acceptor dyad, is directly probed using in situ electrochemical scanning tunneling microscopy (STM) combined with theoretical simulations. It is found that the adsorption geometry and assembled structure of Fe(C60Me5)Cp is significantly affected by the electrochemical environments. In 0.1 M HClO4 solution, Fe(C60Me5)Cp forms well-ordered monolayers and multilayers on Au(111) surfaces with molecular dimer as the building block. In 0.1 M NaClO4 solution, typical six-fold symmetric close-packed monolayer with vertically adsorbed Fe(C60Me5)Cp is formed. Upon electrochemical oxidation, the oxidized Fe(C60Me5)Cp shows higher brightness in an STM image, which facilitates the direct visualization of the interfacial electrochemical electron transfer process. Theoretical simulation indicates that the electrode potential-activated, one-electron transfer from Fe(C60Me5)Cp to the electrode leads to the change of the delocalization character of the frontier orbital in the molecule, which is responsible for the STM image contrast change. This result is beneficial for understanding the structure and property of single electron donor-acceptor dyads. It also provides a direct approach to study the electron transfer of electron donor-acceptor compounds at the molecular level.

Published

2014

4. On-surface synthesis of single-layered two-dimensional covalent organic frameworks via solid-vapor interface reactions.

Author

Liu XH, Guan CZ, Ding SY, Wang W, Yan HJ, Wang D, and Wan LJ

Subjects

Models, Molecular, Organic Chemicals chemistry, Quantum Theory, Surface Properties, Thermodynamics, Volatilization, Graphite chemistry, Organic Chemicals chemical synthesis

Abstract

Surface covalent organic frameworks (SCOFs), featured by atomic thick sheet with covalently bonded organic building units, are promised to possess unique properties associated with reduced dimensionality, well-defined in-plane structure, and tunable functionality. Although a great deal of effort has been made to obtain SCOFs with different linkages and building blocks via both "top-down" exfoliation and "bottom-up" surface synthesis approaches, the obtained SCOFs generally suffer a low crystallinity, which impedes the understanding of intrinsic properties of the materials. Herein, we demonstrate a self-limiting solid-vapor interface reaction strategy to fabricate highly ordered SCOFs. The coupling reaction is tailored to take place at the solid-vapor interface by introducing one precursor via vaporization to the surface preloaded with the other precursor. Following this strategy, highly ordered honeycomb SCOFs with imine linkage are obtained. The controlled formation of SCOFs in our study shows the possibility of a rational design and synthesis of SCOFs with desired functionality.

Published

2013

5. Scanning tunneling microscopy investigation of a supramolecular self-assembled three-dimensional chiral prism on a Au(111) surface.

Author

Yuan QH, Yan CJ, Yan HJ, Wan LJ, Northrop BH, Jude H, and Stang PJ

Subjects

Microscopy, Scanning Tunneling methods, Models, Molecular, Organometallic Compounds chemistry, Pyridines chemistry, Stereoisomerism, Surface Properties, Gold chemistry, Macromolecular Substances chemistry

Abstract

Spontaneous symmetry-breaking of a racemic mixture of supramolecular triginal prisms into chiral domains on a Au(111) surface is observed by scanning tunneling microscopy (STM). High-resolution STM analysis enables the structural aspects of each enantiomeric domain to be elucidated. The ability to resolve chirality on achiral surfaces has potential applications in heterogeneous stereoselective synthesis and catalysis.

Published

2008

6. Catalytic synthesis and structural characterizations of a highly crystalline polyphenylacetylene nanobelt array.

Author

Liu W, Cui ZM, Liu Q, Yan DW, Wu JY, Yan HJ, Guo YL, Wang CR, Song WG, Liu YQ, and Wan LJ

Published

2007

7. Control of supramolecular rectangle self-assembly with a molecular template.

Author

Li SS, Yan HJ, Wan LJ, Yang HB, Northrop BH, and Stang PJ

Subjects

Microscopy, Scanning Tunneling, Nanostructures ultrastructure, Surface Properties, Benzene Derivatives chemistry, Gold chemistry, Graphite chemistry, Nanostructures chemistry

Published

2007

8. Controllable distribution of single molecules and peptides within oligomer template investigated by STM.

Author

Gong JR, Yan HJ, Yuan QH, Xu LP, Bo ZS, and Wan LJ

Subjects

Microscopy, Scanning Tunneling methods, Nanotechnology methods, Oligopeptides chemistry, Polycyclic Compounds chemistry, Polymers chemistry

Abstract

This communication provides a facile method for distributing and dispersing molecules within a molecular template. Using the self-assembled template of oligo(phenylene-ethynylene) (OPE), organic molecules such as coronene (COR) and biomolecules such as tripeptide are controllably distributed and dispersed within this molecular template on highly oriented pyrolytic graphite (HOPG) surfaces. COR molecules were controllably distributed into various regular arrays by simply adjusting the molecular molar ratio, while tripeptide molecules were uniformly positioned at the vacancies of the OPE template.

Published

2006