Autonomous Plasmon-Enhanced Photocatalytic Microrobots Powered by Lorentz Force

Data Management Plan (si apre in una nuova finestra)

The data obtained in this proposal will include the characterization of electrodes, the motion of robots, and the identification of the reaction’s products (e.g., H2). These records will consist of electronic data and video files obtained through custom software. They will be managed in line with the FAIR principles (Findable, Accessible, Interoperable, Reusable), and will be published in open access repositories e.g., Re3Data and Open Data LMU. If inventions are made, access to the data will be granted upon request once appropriate invention disclosures and/or provisional patent filings are made. I will use the research data management organizer (RDMO) tool offered by the LMU to generate a data management plan (DMP) that will be submitted after 6 months. I will also use this tool to track and update my DMP. I will receive guidance/support for data management and open science practices from RDM Information Center and Open Science Center at LMU library, respectively.

Communication, Dissemination & Outreach Plan (si apre in una nuova finestra)

The dissemination plan of this action is aimed at specialized audiences (researchers) within the fields of nanoplasmonics, microrobots, photoelectrochemistry and materials science (including sub-fields), targeting universities and research institutes. Measures for result dissemination include: •Attending a conference to communicate early results regarding the use of photoactive materials in Lorentz force-driven microrobots (e.g., Microrobots and Nanorobots Nature Conferences).•Delivering a presentation at one of the Host Institution’s weekly seminars targeting a general academic audience to talk about microrobots in environmental remediation and energy generation.•Open-access publication of a high-impact paper showing results of plasmonic Lorentz force-driven microrobots.•Presenting results regarding the correlation of plasmonic effects on the exerted Lorentz force at the Fraunhofer Institute for Solar Energy Systems (ISE).•Disseminating results related to the HER efficiency of the plasmon-enhanced photoactive Lorentz force-driven microrobots, e.g., at the International Conference on Advances in Microrobotics (ICAM) in Zürich.•Delivering a talk about the development of solar-to-energy microrobots at the e-Conversion center in Munich. and at the German Federation for applied Photocatalysis (FAP).•Disseminating the results obtained on the photocatalytic efficiency of these robots towards hydrogen production and organic dye degradation via an open-access publication of a research paper and attending the International Conference on Applications of Microrobotics in New York. To set effective channels for result dissemination across these targeted audiences, a project website (“PLOBOT”) will be created to make it easier for the scientific audience and stakeholders to follow the project’s results during the fellowship. The idea behind disseminating results within research institutes through the plan talks listed above is to establish collaborations that would generate further advance in the research after the fellowship. To maximize visibility, the research output of this action will be published in high-impact journals that support open-access research and/or facilitate accessibility through pre-prints in repositories. The research outcomes of this action are expected to primarily contribute to fundamental knowledge gain in the microrobot field. The project will motivate further research in integrating other types of stimuli-responsive materials to trigger the Lorentz force-driven motion, such as enzymes and infrared-absorbing structures, and to translate the resulting electron transfer into sensing with electrochromic materials, for example. Thus, the results are envisioned to be non-commercially exploitable. However, in the long range, should the results lead to a promising energy conversion strategy, I will take on the following exploitation measures at the end of/after the fellowship:•Use of social media (LinkedIn and Twitter) to expose the project’s aims and results to potential stakeholders. In particular, I will actively seek to connect with start-ups that harvest solar-powered photocatalysis and/or hydrogen production micro-/nanotechnologies: US-based start-ups Syzygy Plasmonics, who use a nanotechnology-based plasmonic photocatalytic chemical reactor to generate valuable chemicals, and SunHydrogen, which use a nanoparticle-based patented system, “Photoelectrosynthetically Active Heterostructures”, to produce hydrogen from sunlight; and the Hungarian start-up Resysten, who develop a protective photocatalytic coating against organic and bacterial contamination.•With the help of LMU’s media resources, a general overview of how the technology works through videos, interviews and/or press releases, will be efficiently channeled in LMU’s online news section and shared via LinkedIn and Twitter to attract stakeholders’ attention and for public engagement.•The potential f