Aug 15, 2023· Title : Plug-n-Play Micro-Bio-Photovoltaic Panels. #N00014-21-1-2412. Duration: July 15, 2021 ~ May 31, 2025. Total Award Amount: $510,000. Sole PI . Title : Rapid, High-throughput, and Real-time Assessment of Antibiotic
Jan 1, 2018· We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a wellcontrolled, tightly enclosed micro-chamber. Mohammadifar, Maedeh; Choi, Seokheun ( January 2018, 18th International Conference on Micro and Nanotechnology for Power Generation and Energy
Apr 1, 2017· We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a well-controlled, tightly enclosed micro-chamber.
Oct 1, 2016· This performance is the highest power density for the longest period of time among all micro-scale bio-solar cells. We report a novel microscale biophotovoltaic device that can release biological photo-energy conversion technology from its restriction to conceptual research, and advance its translational potential toward practical, real-world
Nov 7, 2017· This work enabled high-performance, self-sustaining, long-life micro-BSCs by using fundamental breakthroughs of device architectures and electrode materials and demonstrated great microbial biofilm formation and a high rate of bacterial extracellular electron transfer, which led to greater power generation. A microfluidic lab-on-a-chip system that generates its own
We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a well-controlled, tightly enclosed micro-chamber.
Furthermore, electrogenic bacteria can revolutionize the field of bioelectronics by effectively interfacing electronics with microbes through extracellular electron transfer (EET).
supplied by the micro-bio-photovoltaic cell as the only energy source. Normally, the electrogenic heterotrophic electrogenes used in MFCs. Although integration of the bio-photovoltaic cell and strategies for real-world applications. Furthermore, the viability of the photosynthetic bacteria was
Mar 1, 2014· In addition, it takes time for PV recyclers to accumulate sufficient end-of-life (EoL) modules because of the +25 years of the life time of PV module. Choi and Fthenakis, 2010a stated that different temporal and spatial variation should be considered for the strategic PV recycling planning and they analyzed the economic feasibility of the
We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a well-controlled, tightly enclosed micro-chamber. The technique was based on a 3-D double-functional bio-anode concurrently exhibiting bio-electrocatalytic and charge-storage features so that it offers the high-energy harvesting
DOI: 10.1016/J.JCLEPRO.2013.11.022 Corpus ID: 110115340; Crystalline silicon photovoltaic recycling planning: macro and micro perspectives @article{Choi2014CrystallineSP, title={Crystalline silicon photovoltaic recycling planning: macro and micro perspectives}, author={Jun-Ki Choi and Vasilis M. Fthenakis}, journal={Journal of Cleaner Production},
Apr 15, 2021· His recent prototype micro-bio-photovoltaic cell will be improved by integrating an electrochemically active and sustainable "living bioelectrode" that includes a mix of microbes
Considerable research efforts into the promises of electrogenic bacteria and the commercial opportunities they present are attempting to identify potential feasible applications. Metabolic electrons from the bacteria enable electricity generation sufficient to power portable or
Figure 3. (a) Schematic of the micro-sized bio-solar cell (side view), (b) schematic of the individual layers in the device. There are holes at the periphery of the anode layer. (c) A photo-image of the fully assembled MEMS bio-solar cell, its top-view, and its bottom-view. The cell has a ~300- µL single chamber defined by PMMA and rubber layers.
Mar 1, 2018· The bio-photovoltaic device is the bioelectrochemical system that uses living plants and soil electrogenic bacteria, i.e. rhizosphere biota is present for the production of green electricity.
Jan 1, 2018· We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a wellcontrolled, tightly
The Howe group at the University of Cambridge has pioneered bio-photovoltaic micro-bio-photovoltaics. Figure 4: Micro-biophotovoltaics. (a) An array of micro-biophotovolatic units powering a clock (Reproduced with permission. Copyright 2017, Nature publishing group.), (b) a microfluidic biophotovolatic device (Reproduced with permission.
Nov 1, 2019· We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a well-controlled, tightly
Aug 1, 2024· Subsequently, Choi''s group focused on developing micro-BPVs. The first-generation micro-BPVs were presented at the 9th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, thin-film paper-based bio-photovoltaic systems were created using a commercial inkjet printer (Fig. 10 a, b).
The most realizable and commercializable application with the electrogenic bacteria is a micro power source as a disposable platform without replenishing the fuel (named "biobatteries") or
We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a well-controlled, tightly enclosed micro-chamber.
Feb 11, 2014· Lin Liu M. Mohammadifar Seokheun Choi. Engineering, Environmental Science. Journal of Physics: Conference Series. 2019; We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a well-controlled, tightly enclosed micro-chamber. The
Jan 1, 2019· Bio-photovoltaic fuel cells are alternative, renewable energy conversion systems and researches on this subject are ongoing. From H. Lee, S. Choi, A micro-sized bio-solar cell for self-sustaining power generation, Lab Chip 15 (2015) 391–398. Carbon was used as an anode material in the combined fuel cell prepared by air cathode method
Surface morphology and surface energy of anode materials influence power outputs in a multi-channel mediatorless bio-photovoltaic (BPV) system. Phys. Chem. Chem. Lee, H., and Choi, S. (2015). A micro-sized bio-solar cell for self-sustaining power generation. Lab Chip 15, 391–398. doi: 10.1039/c4lc01069h. PubMed Abstract
Recently, our group demonstrated a cyanobacterial biobattery with intracellularly electrode. Moreover, we discovered that the gold nanoparticles promoted light-harvesting as a light absorber, generating "hot" electrons. As a result, the biobattery generated 33.6 times greater power applications.
Micro-sized MFCs show several orders magnitude higher internal resistance than that of macro-sized MFCs, resulting in lower power densities and energy efficiency. Biological photovoltaics (or Bio-solar cells) are an emerging technology designed to harnessEarth''s most abundant and promising energy source (solar irradiation) and self
Apr 26, 2019· In this work, we provide a cost comparison of micro-photosynthetic power cells (µPSC) with the well-established photovoltaic (PV) cells for ultra-low power and low power applications. We also suggest avenues for the performance improvement of µPSC. To perform cost comparison, we considered two case studies, which are development of energy systems
Dec 1, 2006· Micro-bio-photovoltaic systems (or micro-BPVs) 2011;Wang and Su, 2013), or micro power sources (Qian et al., 2009;Choi et al., 2011). Due to the decrease of the characteristic scale in mMFC
page 2 of 28 3. Current - July 2021 ~ May 2025, Office of Naval Research (N00014-21-1-2412), $510,000 (Sole PI); Plug-n-Play Micro-Bio-Photovoltaic Panels 4. Current - June 2021 ~ May 2025, National Science Foundation – (CBET #2100757), $370,000 (Sole PI); Rapid, High-Throughput, and Real-time Assessment of Antibiotic Effectiveness against Pathogenic Biofilms
Aug 7, 2023· Jawre, A. K., Center, B. I. (2018). Bio-photovoltaic: the future of electricity with natural resources[J]. Lee, S., Choi, S. (2018). "3D bioprinting of cyanobacteria for solar-driven bioelectricity generation in resource-limited
Aug 16, 2021· DOI: 10.1002/admt.202100312 Corpus ID: 238682871; Micro‐Concentrator Photovoltaics Using Fluidic Self‐Assembly Technology @article{Cho2021MicroConcentratorPU, title={Micro‐Concentrator Photovoltaics Using Fluidic Self‐Assembly Technology}, author={Seongkyu Cho and Won-Seok Choi and Sunghoon Han and Junhoi Kim and Amos
Aug 16, 2021· Bio-Max Institute, Seoul National University, Seoul, 08826 Republic of Korea Wonseok Choi. Department of Electrical and Computer Engineering, Seoul National University, Seoul, 08826 Republic of Korea (FSA) technology and the combination thereof with a polymer lens array to implement micro-concentrator photovoltaics (micro-CPV). Using
Nov 1, 2019· We created innovative supercapacitive micro-bio-photovoltaic systems (or micro-BPVs) with maximized bacterial photoelectrochemical activities in a well-controlled, tightly
Nov 4, 2014· Lee and Choi (2015) introduced a bio-solar cell in a micro-sized chamber. They used actual bacterial cells in an electron coupling cycle in a solar cell because of their self-repairing and self
Jan 21, 2015· An entirely self-sustainable and scalable microliter-sized bio-solar cell with significant power enhancement by maximizing solar energy capture, bacterial attachment, and
Aug 7, 2023· Jawre, A. K., Center, B. I. (2018). Bio-photovoltaic: the future of electricity with natural resources[J]. Lee, S., Choi, S. (2018). "3D bioprinting of cyanobacteria for solar-driven bioelectricity generation in resource-limited environments," in 2018 40th Annual International Conference of the IEEE Engineering in Medicine and Biology
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