Photosynthetic Solar Cell Using Nanostructured Proton Exchange Membrane for Microbial Biofilm Prevention

• Published in: ACS nano Vol. 8; no. 6; pp. 6458 - 6465
• Main Authors: Lee, Dong Hyun, Oh, Hwa Jin, Bai, Seoung Jae, Song, Young Seok
• Format: Journal Article
• Language: English
• Published: United States American Chemical Society 24.06.2014
• Subjects: Anti-Bacterial Agents - chemistry; Biofilms; Computer Simulation; Diffusion; Energy harvesting; Exchange; Hot Temperature; Lithography; Materials Testing; Membranes; Microorganisms; Microscopy, Electron, Scanning; Nanoparticles - chemistry; Nanostructure; Nanotechnology; Nanotechnology - methods; Photosynthesis; Platinum - chemistry; Protons; Solar Energy; Stress, Mechanical; Sunlight; energy harvesting; nanostructure; nanoimprint lithography; biofilm
• ISSN: 1936-0851; 1936-086X
• DOI: 10.1021/nn502033f

Unwanted biofilm formation has a detrimental effect on bioelectrical energy harvesting in microbial cells. This issue still needs to be solved for higher power and longer durability and could be resolved with the help of nanoengineering in designing and manufacturing. Here, we demonstrate a photosynthetic solar cell (PSC) that contains a nanostructure to prevent the formation of biofilm by micro-organisms. Nanostructures were fabricated using nanoimprint lithography, where a film heater array system was introduced to precisely control the local wall temperature. To understand the heat and mass transfer phenomena behind the manufacturing and energy harvesting processes of PSC, we carried out a numerical simulation and experimental measurements. It revealed that the nanostructures developed on the proton exchange membrane enable PSC to produce enhanced output power due to the retarded microbial attachment on the Nafion membrane. We anticipate that this strategy can provide a pathway where PSC can ensure more renewable, sustainable, and efficient energy harvesting performance.