Viruses breathe new life into batteries – Physics World
M13 Virus Triboelectricity and Energy Harvesting | Nano Letters
Virus-Enabled Synthesis and Assembly of Nanowires for Lithium Ion Battery Electrodes | Science
M13 phage: a versatile building block for a highly specific analysis platform | SpringerLink
Virus-Enabled Synthesis and Assembly of Nanowires for Lithium Ion Battery Electrodes | Science
Stability of M13 Phage in Organic Solvents
Lithium-air batteries go viral for greater durability and performance
Improvements in the production of purified M13 bacteriophage bio-nanoparticle | Scientific Reports
Viruses | Free Full-Text | Self-Assembled Nanoporous Biofilms from Functionalized Nanofibrous M13 Bacteriophage
Nanomaterials | Free Full-Text | Recent Developments and Prospects of M13- Bacteriophage Based Piezoelectric Energy Harvesting Devices
Recent applications of bacteriophage-based electrodes: A mini-review - ScienceDirect
Biologically enhanced cathode design for improved capacity and cycle life for lithium-oxygen batteries | Nature Communications
Exploiting Biological Systems: Toward Eco-Friendly and High-Efficiency Rechargeable Batteries
Stamped microbattery electrodes based on self-assembled M13 viruses | PNAS
MIT Team Uses Genetically Engineered Viruses to Build Cathode Material for Li-ion Battery - Green Car Congress
Filamentous virus-based soft materials based on controlled assembly through liquid crystalline formation | Polymer Journal
M13 Virus-Directed Synthesis of Nanostructured Metal Oxides for Lithium–Oxygen Batteries | Nano Letters
MIT Creates Battery from Genetically Engineered Virus
M13 Virus Triboelectricity and Energy Harvesting | Nano Letters
The Next Generation of Batteries Could Be Built by Viruses | WIRED
