Jiannan Bao scite author profile

The fabrication of molecular films by coating a conductive polymer solution on a substrate is an active topic in molecular electronics research. Since the inhomogeneity of polymer thin films modulates the chemical states and electrical properties of these films, the construction of integrated polymer devices requires methods to fabricate controllable, homogeneous molecular films as small patterns. Herein, we report the reproducible fabrication of sub-micrometer thickness self-doped polyaniline lines with high homogeneity by fountain-pen lithography (FPL). Compared with commonly used drop-casting and spin-coating methods, the fabrication of line patterns by FPL allows good control of line size, chemical/micro structures, and electronic properties, as demonstrated here by microscope Raman spectroscopy and conductance measurements. Supplying an identical amount of solution from a nanopipette and rapid solvent evaporation are likely crucial for fabricating homogeneous line patterns. This method is promising for the development of molecular electronic devices and the characterization of polymeric materials.

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Sacrificial gold coating enhances transport of liquid metal in pressurized fountain pen lithography

Livshits

Bao

Sakamoto

et al. 2021

Sci Rep

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Liquid metals have attracted attention as functional components for moldable electronics, such as soft flexible connectors, wires or conductive ink. The relatively high surface tension (> 400 mN m−1) and the fact that liquid metals do not readily wet ceramic or oxide surfaces have led to devising unique techniques to spread the liquid and mold its shape. These techniques include surface modification, electrowetting and vacuum filling of channels. This work presents an injection technique based on pressurized fountain pen lithography with glass nanopipettes developed to directly pattern liquid metal on flat hard substrates. The liquid metals were eutectic alloys of Gallium, including Gallium-Indium (EGaIn), Gallium-Indium-Zinc and Gallium-Indium-Tin. The nanopipettes were coated internally with gold, acting as a sacrificial layer and facilitating the wetting of the pipette down to its pore, with an inner diameter of ~ 100–300 nm. By applying hydrodynamic pressure to the connected end of the pipette, the metal was extruded through the pore, forming long continuous (> 3 mm) and narrow (~ 1–15 µm) metal lines on silicon oxide and gold surfaces at room temperature and ambient conditions. With this robust platform, it is possible to pattern liquid metals on a variety of substrates and geometries down to the micron range.

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Local-field-induced current noise in shape-limited self-doped polyaniline

Bao¹,

Otsuka²,

Etoh³

et al. 2020

Nanotechnology

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Electronic noise generators are an essential component of molecular neuromorphic devices. To realize molecular noise generators with a high degree of freedom for design and integration into molecular devices, the utilization of the local electric field for the modulation of electrical conduction via a shape-limited conductive polymer is one promising strategy. Herein, a molecular noise generator composed of thin self-doped polyaniline (SPAN) lines is reported. SPAN lines fabricated via fountain pen lithography on SiO 2 /Si substrates were found to generate current noise upon laser irradiation. This current noise exhibited white-noise-like power spectral density in the frequency range of 1-25 Hz and was independent of temperature. Multiple independent noise generation on the same substrate was also successfully demonstrated. The present results indicate that the noise generation mechanism involves the local modulation of hopping conduction via SPAN lines owing to the spatial proximity of the conduction path in the SPAN line to the surface photovoltage region of the SiO 2 /Si interface. This on-site random noise generation in shape-limited conductive polymers is expected to be beneficial for the realization of molecular neuromorphic devices.

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Shape-Dependent Conduction Regime in Self-Doped Polyaniline

et al. 2022

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Conductive polymers are key building blocks for the construction of molecular devices, and it is crucial to elucidate the conduction properties in microscaleshaped nanometer-thickness thin films in which the number of conduction paths is limited. In this study, we describe the effect of chemical doping and spatial limitation on the electrical conduction properties of sulfonated polyaniline (SPAN) strips with nanometer thickness fabricated by fountain-pen lithography and consider their electrical conduction mechanism. Raman spectroscopy indicated that the polarons in the SPAN strips decreased with increasing pH of the SPAN solution. According to the electrical measurements, the current−voltage (I− V) characteristics switched from linear to nonlinear by reducing the polarons and the conducting paths in thin strips. The results suggest that the nonlinear properties arise from the reduction of effective hopping barriers between a small number of conductive regions applied with localized electric field in the bottleneck region.

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Jiannan Bao

Homogeneous chemical state of self-doped polyaniline sub-micrometer thickness lines fabricated by fountain-pen lithography

Sacrificial gold coating enhances transport of liquid metal in pressurized fountain pen lithography

Local-field-induced current noise in shape-limited self-doped polyaniline

Shape-Dependent Conduction Regime in Self-Doped Polyaniline

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