@article{30566, author = {Kelsey B Hatzell and Marm B Dixit and Sarah A Berlinger and Adam Z Weber}, title = {Understanding inks for porous-electrode formation}, abstract = {

Scalable manufacturing of high-aspect-ratio multi-material electrodes are important for advanced energy storage and conversion systems. Such technologies often rely on solution-based processing methods where the active material is dispersed in a colloidal ink. To date, ink formulation has primarily focused on macro-scale process-specific optimization (i.e. viscosity and surface/interfacial tension), and been optimized mainly empirically. Thus, there is a further need to understand nano- and mesoscale interactions and how they can be engineered for controlled macroscale properties and structures related to performance, durability, and material utilization in electrochemical systems.

}, year = {2017}, journal = {J. Mater. Chem. A}, volume = {5}, pages = {20527 - 20533}, month = {09/2017}, issn = {2050-7488}, doi = {10.1039/C7TA07255D}, language = {eng}, }