Xue Jiang scite author profile

Camelina meal contains oil, proteins, and carbohydrates that can be used to develop value-added bioproducts. In addition to containing valuable polymers, coproducts generated during the production of biofuels are inexpensive and renewable. Camelina is a preferred oilseed crop for biodiesel production because camelina is easier to grow and provides better yields. In this research, the components in camelina meal were extracted and studied for their composition, structure, and properties. The potential of using the camelina meal to develop thermoplastics was also studied by grafting various vinyl monomers. Oil (19%) extracted from camelina meal could be useful for food and fuel applications, and proteins and cellulose in camelina meal could be useful in the development of films, fibers, and thermoplastics. Thermoplastic films developed from grafted camelina meal had excellent wet tensile properties, unlike thermoplastics developed from other biopolymers. Camelina meal grafted with butylmethacrylate (BMA) had high dry and wet tensile strengths of 53.7 and 17.3 MPa, respectively.

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Transfer learning for motor imagery based brain–computer interfaces: A tutorial

Jiang

Peng

2022

Neural Networks

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Xue Jiang

Micro structure and hardening of Al-based nanophase composites

Postharvest hot water dipping and hot water forced convection treatments alleviate chilling injury for zucchini fruit during cold storage

A rapid and operator-safe powder approach for latent fingerprint detection using hydrophilic Fe3O4@SiO2-CdTe nanoparticles

Extraction, Characterization of Components, and Potential Thermoplastic Applications of Camelina Meal Grafted with Vinyl Monomers

Transfer learning for motor imagery based brain–computer interfaces: A tutorial

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