Our contributions focused on the Sustainable Development Goals
Our background reflects our team’s concern for the achievement of fairer, more equitable, and more prosperous societies. We direct our efforts towards seeking economic, social, and environmental balance so that future generations can enjoy natural resources.
Auburn’s PAR grants cover gamut of state’s agriculture, including hemp production research, potential of European grapes in Alabama
Pectin and nanocellulose from soybean hull as interfacial agents for increasing tack properties in emulsions of polymeric diphenylmethane diisocyanate.
Correlations between rheological behavior and intrinsic properties of nanofibrillated cellulose from wood and soybean hulls with varying lignin content.
Antibody Immobilization on Sulfated Cellulose Nanocrystals
Hispolon Cyclodextrin Complexes and Their Inclusion in Liposomes for Enhanced Delivery in Melanoma Cell Lines
5-Fluorouracil drug delivery system based on bacterial nanocellulose for colorectal cancer treatment: Mathematical and in vitro evaluation
Development of a β-cyclodextrin-chitosan polymer as active coating for cellulosic surfaces and capturing of microcystin-LR
Understanding the current state-of-the-art of long-lasting insecticide nets and potential for sustainable alternatives
Assessment of bio-based materials for enhanced signal detection of sporozoites using csELISA. Pre-print
Effects of Chemical Post-treatments on Structural and Physicochemical Properties of Silk Fibroin Films Obtained From Silk Fibrous Waste.
Surface Interactions between Bacterial Nanocellulose and B-Complex Vitamins.
Films from xylan/chitosan complexes: preparation and characterization.
Nanotechnology. Lignocellulosics: Renewable Feedstock for (Tailored) Functional Materials and Nanotechnology
Secuencias didácticas para la comprensión del desarrollo sostenible y la ciudadanía global en educación superior.
Auburn doctoral candidate making a difference by leading academic readiness program