Peer-reviewed industrial hemp research papers, sorted by publication date. Browse the latest findings on hemp cultivation, processing, materials science, biomedical applications, and regulatory science from PubMed, OpenAlex, and other indexed sources.
Abstract Printed flexible temperature and humidity sensors have emerged as essential components for diverse applications requiring low-cost, scalable, and conformable environmental monitoring. This chapter presents a comprehensive overview of recent advancements in printed flexible sensors for temperature and humidity, emphasizing material selection, additive fabrication techniques, and practical applications. The chapter analyzes critical printing processes such as screen printing, inkjet print
Abstract
Understanding the relationship between ionic strength and protein solubility is essential to the utilization of salt in the formulation design of plant protein‐based food and beverage products. In this study, suspensions of oat protein isolate (OPI) were treated with two kinds of common salts (sodium chloride NaCl; sodium phosphate NaP) at different ionic strengths (
I
). Electric
Reentrant microstructures characterized by excellent superhydrophobic property have demonstrated significant potential in liquid–vapor phase-change heat transfer, self-cleaning, and medical protection. Current research about droplet wetting on reentrant microstructure surfaces primarily focuses on the Cassie–Wenzel wetting transition. However, a theoretical prediction of the apparent contact angle on this heterogeneous structure for design guideline is lacking. In this work, microscale three-dim
In inertial suspensions, inertia becomes important on the scale of the disperse particulate phase (the ‘micro-scale’). From the rheological standpoint, the interest is in suspensions of neutrally buoyant particles, with micro-scale inertial effects characterized by the particle Reynolds number. Dilute inertial suspensions differ fundamentally from their Stokesian counterparts, in possessing a non-Newtonian rheology and a finite microstructural relaxation time, even in the absence of interparticl