C. B. Smith scite author profile

The mechanism and kinetics of interactions between dimethyl methylphosphonate (DMMP), a key chemical warfare agent (CWA) simulant, and Zr6-based metal organic frameworks (MOFs) have been investigated with in situ infrared spectroscopy (IR), X-ray photoelectron spectroscopy (XPS), powder X-ray diffraction (PXRD), and DFT calculations. DMMP was found to adsorb molecularly to UiO-66 through the formation of hydrogen bonds between the phosphoryl oxygen and the free hydroxyl groups associated with Zr6 nodes on the surface of crystallites and not within the bulk MOF structure. Unlike UiO-66, the infrared spectra for UiO-67 and MOF-808, recorded during DMMP exposure, suggest that uptake occurs through both physisorption and chemisorption. The XPS spectra of MOF-808 zirconium 3d electrons reveal a charge redistribution following exposure to DMMP. In addition, analysis of the phosphorus 2p electrons following exposure and thermal annealing to 600 K indicates that two types of stable phosphorus-containing species exist within the MOF. DFT calculations, used to guide the IR band assignments and to help interpret the XPS features, suggest that uptake is driven by nucleophilic addition of an OH group to DMMP with subsequent elimination of a methoxy substituent to form strongly bound methyl methylphosphonic acid (MMPA). The rates of product formation indicate that there are likely two distinct uptake processes, requiring rate constants that differ by approximately an order of magnitude. However, the rates of molecular uptake were found to be nearly identical to the rates of reaction, which strongly suggests that the reaction rates are diffusion-limited. The final products were found to inhibit further reactions within the MOFs, and these products could not be thermally driven from the MOFs prior to decomposition of the MOFs themselves.

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Technique for Rapid Analyses of Corn Leaves for Eleven Elements¹

Baker¹,

Gorsline²,

Smith³

et al. 1964

Agronomy Journal

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Synopsis An investigation was conducted to develop methods for an over‐all analytical technique of corn leaf analysis. Samples were analyzed by use of a spectrometer for Sr, P, K, Ca, Mg, Mn, Cu, B, Al, Fe, and Zn. Computing equipment was used to speed and facilitate data conversion. Procedures for sampling, leaf washing, drying, grinding, mixing, ashing, and analysis were studied and modified, where necessary, to increase precision and accuracy with respect to all elements.

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Better benefits for health: plan to implement the central recommendation of the Acheson report

Black

Morris²,

Smith³

et al. 1999

BMJ

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Plant density as related to fertilizer needs for processing and fresh market tomatoes

Smith

Demchak

Ferretti

et al. 1992

Communications in Soil Science and Plant Analysis

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Fertilizer placement effects on growth responses and nutrient uptake of sweet corn, snapbeans, tomatoes and cabbage

Smith

Demchak

Ferretti

1990

Communications in Soil Science and Plant Analysis

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C. B. Smith

Mechanism and Kinetics for Reaction of the Chemical Warfare Agent Simulant, DMMP(g), with Zirconium(IV) MOFs: An Ultrahigh-Vacuum and DFT Study

Technique for Rapid Analyses of Corn Leaves for Eleven Elements¹

Better benefits for health: plan to implement the central recommendation of the Acheson report

Plant density as related to fertilizer needs for processing and fresh market tomatoes

Fertilizer placement effects on growth responses and nutrient uptake of sweet corn, snapbeans, tomatoes and cabbage

Contact Info

Product

Resources

About

C. B. Smith

Mechanism and Kinetics for Reaction of the Chemical Warfare Agent Simulant, DMMP(g), with Zirconium(IV) MOFs: An Ultrahigh-Vacuum and DFT Study

Technique for Rapid Analyses of Corn Leaves for Eleven Elements1

Better benefits for health: plan to implement the central recommendation of the Acheson report

Plant density as related to fertilizer needs for processing and fresh market tomatoes

Fertilizer placement effects on growth responses and nutrient uptake of sweet corn, snapbeans, tomatoes and cabbage

Contact Info

Product

Resources

About

Technique for Rapid Analyses of Corn Leaves for Eleven Elements¹