美國(guó)威斯康星大學(xué)定向碳納米管（ANT）項(xiàng)目招聘博士后研究員

Michael S. Arnold – Materials Science and Engineering

Prof. Padma Gopalan – Materials Science and Engineering

Prof. Joseph B. Andrews – Mechanical Engineering and Electrical Engineering

We are looking for an entrepreneurially minded student nearing completion of their Ph.D. (bio or clinical chemistry, chemical engineering, or materials science and engineering) who is interested in a unique and exciting post-doc position. The funded position will focus on bio field effect transistors (Bio-FETs) that leverage a novel Aligned Carbon Nanotube (ANT) process. The patented ANT process produces the desired structure and spacing of carbon nanotubes for a broad set of applications, including biosensors, RF devices for wireless communication, wearable electronics, computer chips, and OLED displays.

The post-doc will be trained to help resolve a manageable set of technical challenges with emphasis on an innovative nanotube based biosensor and scale-up. We are focusing on the design and development of a demonstration device targeting detection of cytokines to provide a reference point versus industry standard detection methods such as SPR and ELISA. Once demonstrated, it is expected that the process will gain additional commercial traction with one or more industry collaborators, as well as position the ANT process for funding under government research programs with potential that a company will be formed to advance it commercially. Candidates with expertise in the following areas are particularly sought: specific antigen-antibody interactions; immunosensors; field-effect transistor (FET)-based immunosensors; medical diagnostics; medical biochemistry; chemical functionalization of surfaces; solution-processing of thin film semiconductors; and/or the design of tools for solution-based thin film deposition over large areas.

The selected candidate would receive salary as a post-doc and work jointly with the Arnold, Gopalan, and Andrews laboratories.

Below are some sample papers to learn more about the ANT process:

1.  Y. Joo et al., Dose-Controlled, Floating Evaporative Self-assembly and Alignment of Semiconducting Carbon Nanotubes from Organic Solvents. Langmuir 30, 3460 (2014).

2.  G. J. Brady et al., High performance transistors via aligned polyfluorene-sorted carbon nanotubes. Applied Physics Letters 104 (2014).

3. G. J. Brady et al., Polyfluorene-Sorted, Carbon Nanotube Array Field-Effect Transistors with Increased Current Density and High On/Off Ratio. ACS Nano 8, 11614 (2014).

4. Y. Joo, et al., Isolation of Pristine Electronics Grade Semiconducting Carbon Nano tubes by Switching the Rigidity of the Wrapping Polymer Backbone on Demand. ACS Nano 9, 10203 (2015).

5. G. J. Brady et al., Quasi-ballistic carbon nanotube array transistors with current density exceeding Si and GaAs. Science Advances 2 (2016).

6.  Y. Joo et al., ACS Applied Materials & Interfaces 9, 28859 (2017).

7.  K. R. Jinkins et al., Nanotube Alignment Mechanism in Floating Evaporative Self-Assembly. Langmuir 33, 13407 (2017).

8.  C. Kanimozhi et al., Structurally Analogous Degradable Version of Fluorene-Bipyridine Copolymer with Exceptional Selectivity for Large-Diameter Semiconducting Carbon Nanotubes. ACS Applied Materials & Interfaces 9, 40734 (2017).

9. K. R. Jinkins et al., Substrate-Wide Confined Shear Alignment of Carbon Nanotubes for Thin Film Transistors, Advanced Electronic Materials 5, 1800593 (2019).

This position can start as soon as 4 weeks of identification of candidate. To apply, please submit short cover letter and CV to michael.arnold@wisc.edu with a subject of ANT POSTDOC. Applications will be considered as soon as they are received.

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