Jason M. Richards scite author profile

Molecules that can be used to deliver a controlled amount of carbon monoxide (CO) have the potential to facilitate investigations into the roles of this gaseous molecule in biology and advance therapeutic treatments. This has led to the development of light-induced CO-releasing molecules (photoCORMs). A goal in this field of research is the development of molecules that exhibit a combination of controlled CO release, favorable biological properties (e.g., low toxicity and trackability in cells), and structural tunability to affect CO release. Herein, we report a new biologically-inspired organic photoCORM motif that exhibits several features that are desirable in a next-generation photoCORM. We show that 3-hydroxyflavone-based compounds are easily synthesized and modified to impart changes in absorption features and quantum yield for CO release, exhibit low toxicity, are trackable in cells, and can exhibit both O2-dependent and -independent CO release reactivity.

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Separation of Americium in High Oxidation States from Curium Utilizing Sodium Bismuthate

Richards

Sudowe

2016

Anal. Chem.

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A simple separation of americium from curium would support closure of the nuclear fuel cycle, assist in nuclear forensic analysis, and allow for more accurate measurement of neutron capture properties of (241)Am. Methods for the separation of americium from curium are however complicated and time-consuming due to the similar chemical properties of these elements. In this work a novel method for the separation of americium from curium in nitric acid media was developed using sodium bismuthate to perform both the oxidation and separation. Sodium bismuthate is shown to be a promising material for performing a simple and rapid separation. Curium is more strongly retained than americium on the undissolved sodium bismuthate at nitric acid concentrations below 1.0 M. A separation factor of ∼90 was obtained in 0.1 M nitric acid. This separation factor is achieved within the first minute of contact and is maintained for at least 2 h of contact. Separations using sodium bismuthate were performed using solid-liquid extraction as well as column chromatography.

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Experimental and computational study of particle formation kinetics in UF₆ hydrolysis

et al. 2020

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Jason M. Richards

A Structurally‐Tunable 3‐Hydroxyflavone Motif for Visible Light‐Induced Carbon Monoxide‐Releasing Molecules (CORMs)

Separation of Americium in High Oxidation States from Curium Utilizing Sodium Bismuthate

Experimental and computational study of particle formation kinetics in UF₆ hydrolysis

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Jason M. Richards

A Structurally‐Tunable 3‐Hydroxyflavone Motif for Visible Light‐Induced Carbon Monoxide‐Releasing Molecules (CORMs)

Separation of Americium in High Oxidation States from Curium Utilizing Sodium Bismuthate

Experimental and computational study of particle formation kinetics in UF6 hydrolysis

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Experimental and computational study of particle formation kinetics in UF₆ hydrolysis