A High-Throughput Imagery Protocol to Predict Functionality upon Fractality of Carbon-Capturing Biointerfaces

Abstract: Surface quality is key for any adsorbent to have an effective adsorption. Because analyzing an adsorbent can be costly, we established an imagery protocol to determine adsorption robustly yet simply. To validate our hypothesis of whether stereomicroscopy, superpixel segmentation and fractal theory consist of an exceptional merger for high-throughput predictive analytics, we developed carbon-capturing biointerfaces by pelletizing hydrochars of sugarcane bagasse, pinewood sawdust, peanut pod hull, wheat straw, a… Show more

“…Souza et al [14] developed a technique to predict the colour intensity of flowers based on the plant canopy's external shape, which was extracted from close-range RGB images and analysed with image processing algorithms. Moreira et al [15] used micrograph images of pellets of agricultural residuals acquired with a ZEISS Stemi-305 microscope with further image processing techniques to predict adsorption at microstructural stress.…”

Application of Image Processing in Agriculture

“…Souza et al [14] developed a technique to predict the colour intensity of flowers based on the plant canopy's external shape, which was extracted from close-range RGB images and analysed with image processing algorithms. Moreira et al [15] used micrograph images of pellets of agricultural residuals acquired with a ZEISS Stemi-305 microscope with further image processing techniques to predict adsorption at microstructural stress.…”

Application of Image Processing in Agriculture