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Microcrystalline cellulose (MCC) is a term for refined wood pulp and is used as a texturizer, an anti-caking agent, a fat substitute, an emulsifier, an extender, and a bulking agent in food production. [1] The most common form is used in vitamin supplements or tablets.
Research studies related to microcrystalline cellulose and nanocellulose began in the 1950s thanks to Battista's work. Battista whilst at the Textile Research Institute, Princeton (USA), obtained microcrystalline cellulose by controlled hydrolysis of cellulose fibers and subsequent sonification treatment. With this, he opened the door for ...
A wide variety of binders may be used: some common ones are lactose, dibasic calcium phosphate, sucrose, corn (maize) starch, microcrystalline cellulose, povidone polyvinylpyrrolidone and modified cellulose (for example, hydroxypropyl methylcellulose and hydroxyethylcellulose).
The global microcrystalline cellulose market is witnessing significant growth, driven by its versatile applications across various industries such as pharmaceuticals, food and beverages, and personal care. As consumer preferences shift towards natural and sustainable products, MCC has emerged as a preferred choice due to its biodegradability ...
Eichhorn was a runner up for a prize for the best paper to be published in Journal of the Royal Society Interface [26] for a paper co-authored with Professor William Sampson, Manchester University. [27] He was the first UK based scientist to be a Chair of the Cellulose and Renewable Materials Division of the American Chemical Society in 2015. [28]
Cellulose is the most abundant organic polymer on Earth. [6] The cellulose content of cotton fibre is 90%, that of wood is 40–50%, and that of dried hemp is approximately 57%. [7] [8] [9] Cellulose is mainly used to produce paperboard and paper. Smaller quantities are converted into a wide variety of derivative products such as cellophane and ...
Cellulose nanocrystals (CNCs), or nanocrystalline cellulose (NCC), are highly crystalline, rod-like nanoparticles. [6] [7] They are usually covered by negatively charged groups that render them colloidally stable in water. They are typically shorter than CNFs, with a typical length of 100 to 1000 nanometers. [8]
The moisture sorption properties of pharmaceutical materials such as excipients, drug formulations and packaging films are recognized as critical factors in determining their storage, stability, processing and application performance. [1] [2] Further, vapor sorption experiments can be used to study hydrate [3] and solvate [4] formation.