Jennifer H. Chu scite author profile

A two‐step approach for removing phenols from aqueous solutions was investigated. In the first step, weakly adsorbable phenols are converted to quinones by the enzyme mushroom tyrosinase. The tyrosinase‐generated quinones are then chemisorbed onto chitosan, a readily available waste product of the shellfish industry. In the absence of enzyme, quinone was observed to be rapidly adsorbed onto chitosan. Also, the enthalpy for quinone adsorption onto chitosan was observed to be −24.7 kcal/mol, which compares to enthalpies of ‐7 kcal/mol for adsorption of phenols and quinone onto activated charcoal. With the monophenol reactant cresol, the tyrosinase enzyme was observed to be somewhat stabilized in the presence of chitosan. This stabilization of tyrosinase is presumably due to the rapid adsorption of the reactive quinones onto chitosan. In contrast, tyrosinase was not stabilized by chitosan when the o‐diphenol catechol was the reactant. The ability of chitosan to stabilize tyrosinase for monophenols but not for o‐diphenols is discussed in terms of the relative rates of phenol oxidation by tyrosinase and quinone chemisorption onto chitosan. When mushroom tyrosinase and chitosan were added simultaneously to dilute, phenol‐containing solutions, a nearly complete removal of UV‐absorbing material was observed. This observation demonstrates the feasibility of removing phenols from dilute solutions using the tyrosinase reaction/chitosan adsorption approach.

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Investigation of Serrated Roll Surface Differences on Ribbon Thickness During Roller Compaction

Daugherity

Chu

2007

Pharmaceutical Development and Technology

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Many parameters are considered when developing a roller compaction process. However, roll serration volume is generally not considered when using serrated rolls. It was hypothesized that serration volume of concavo-convex rolls can have a significant effect on ribbon thickness due to differences in nip angle. Experiments were conducted to investigate ribbon thickness using different roll sets having a range of serration volumes. Roll sets with approximately twice the serration volume produce ribbons 20-25% greater in thickness. These results correlated with physical measurements taken of the serrations from each set. Thus, differences in roll serration volume can significantly affect ribbon thickness.

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Graphene – a platform technology for a new class of membranes 1 , 2

Chu¹

2013

Membrane Technology

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Study reveals diverse behaviour of tiny graphene pores 1 , 2

Chu¹

2016

Membrane Technology

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Jennifer H. Chu

Morphologies of strongly segregated polystyrene-poly(dimethylsiloxane) diblock copolymers

Tyrosinase Reaction/Chitosan Adsorption for Removing Phenols from Wastewater

Investigation of Serrated Roll Surface Differences on Ribbon Thickness During Roller Compaction

Graphene – a platform technology for a new class of membranes 1 , 2

Study reveals diverse behaviour of tiny graphene pores 1 , 2

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