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936 results on '"Thomas, M."'

1. Multistep Solid-State Organic Synthesis of Carbamate-Linked Covalent Organic Frameworks

Author

Lyle, Steven J, Popp, Thomas M Osborn, Waller, Peter J, Pei, Xiaokun, Reimer, Jeffrey A, and Yaghi, Omar M

Subjects
Organic Chemistry, Chemical Sciences, Carbamates, Imines, Molecular Structure, Porosity, Surface Properties, General Chemistry, Chemical sciences, Engineering
Abstract

Herein, we demonstrate the first example of a multistep solid-state organic synthesis, in which a new imine-linked two-dimensional covalent organic framework (COF-170, 1) was transformed through three consecutive postsynthetic modifications into porous, crystalline cyclic carbamate and thiocarbamate-linked frameworks. These linkages are previously unreported and inaccessible through de novo synthesis. While not altering the overall connectivity of the framework, these chemical transformations induce significant conformational and structural changes at each step, highlighting the key importance of noncovalent interactions and conformational flexibility to COF crystallinity and porosity. These transformations were assessed using 15N multiCP-MAS NMR spectroscopy, providing the first quantitation of yields in COF postsynthetic modification reactions, as well as of amine defect sites in imine-linked COFs. This multistep COF linkage postsynthetic modification represents a significant step toward bringing the precision of organic solution-phase synthesis to extended solid-state compounds.

Published
2019

4. The Chemistry of CO2 Capture in an Amine-Functionalized Metal–Organic Framework under Dry and Humid Conditions

Author

Flaig, Robinson W, Popp, Thomas M Osborn, Fracaroli, Alejandro M, Kapustin, Eugene A, Kalmutzki, Markus J, Altamimi, Rashid M, Fathieh, Farhad, Reimer, Jeffrey A, and Yaghi, Omar M

Subjects
Inorganic Chemistry, Chemical Sciences, Climate Action, General Chemistry, Chemical sciences, Engineering
Abstract

The use of two primary alkylamine functionalities covalently tethered to the linkers of IRMOF-74-III results in a material that can uptake CO2 at low pressures through a chemisorption mechanism. In contrast to other primary amine-functionalized solid adsorbents that uptake CO2 primarily as ammonium carbamates, we observe using solid state NMR that the major chemisorption product for this material is carbamic acid. The equilibrium of reaction products also shifts to ammonium carbamate when water vapor is present; a new finding that has impact on control of the chemistry of CO2 capture in MOF materials and one that highlights the importance of geometric constraints and the mediating role of water within the pores of MOFs.

Published
2017

5. Controlling Cooperative CO2 Adsorption in Diamine-Appended Mg2(dobpdc) Metal–Organic Frameworks

Author

Siegelman, Rebecca L, McDonald, Thomas M, Gonzalez, Miguel I, Martell, Jeffrey D, Milner, Phillip J, Mason, Jarad A, Berger, Adam H, Bhown, Abhoyjit S, and Long, Jeffrey R

Subjects
Inorganic Chemistry, Engineering, Chemical Sciences, Climate Action, Adsorption, Carbon Dioxide, Coordination Complexes, Crystallography, X-Ray, Diamines, Magnesium, Metal-Organic Frameworks, Models, Molecular, Molecular Structure, Surface Properties, General Chemistry, Chemical sciences
Abstract

In the transition to a clean-energy future, CO2 separations will play a critical role in mitigating current greenhouse gas emissions and facilitating conversion to cleaner-burning and renewable fuels. New materials with high selectivities for CO2 adsorption, large CO2 removal capacities, and low regeneration energies are needed to achieve these separations efficiently at scale. Here, we present a detailed investigation of nine diamine-appended variants of the metal-organic framework Mg2(dobpdc) (dobpdc4- = 4,4'-dioxidobiphenyl-3,3'-dicarboxylate) that feature step-shaped CO2 adsorption isotherms resulting from cooperative and reversible insertion of CO2 into metal-amine bonds to form ammonium carbamate chains. Small modifications to the diamine structure are found to shift the threshold pressure for cooperative CO2 adsorption by over 4 orders of magnitude at a given temperature, and the observed trends are rationalized on the basis of crystal structures of the isostructural zinc frameworks obtained from in situ single-crystal X-ray diffraction experiments. The structure-activity relationships derived from these results can be leveraged to tailor adsorbents to the conditions of a given CO2 separation process. The unparalleled versatility of these materials, coupled with their high CO2 capacities and low projected energy costs, highlights their potential as next-generation adsorbents for a wide array of CO2 separations.

Published
2017

6. Chemical Conversion of Linkages in Covalent Organic Frameworks

Author

Waller, Peter J, Lyle, Steven J, Popp, Thomas M Osborn, Diercks, Christian S, Reimer, Jeffrey A, and Yaghi, Omar M

Subjects
Chemical Sciences, Physical Chemistry, General Chemistry, Chemical sciences, Engineering
Abstract

The imine linkages of two layered, porous covalent organic frameworks (COFs), TPB-TP-COF ([C6H3(C6H4N)3]2[C6H4(CH)2]3, 1) and 4PE-1P-COF ([C2(C6H4N)4][C6H4(CH)2]2, 2), have been transformed into amide linkages to make the respective isostructural amide COFs 1' and 2' by direct oxidation with retention of crystallinity and permanent porosity. Remarkably, the oxidation of both imine COFs is complete, as assessed by FT-IR and 13C CP-MAS NMR spectroscopy and demonstrates (a) the first chemical conversion of a COF linkage and (b) how the usual "crystallization problem" encountered in COF chemistry can be bypassed to access COFs, such as these amides, that are typically thought to be difficult to obtain by the usual de novo methods. The amide COFs show improved chemical stability relative to their imine progenitors.

Published
2016

9. Application of a High-Throughput Analyzer in Evaluating Solid Adsorbents for Post-Combustion Carbon Capture via Multicomponent Adsorption of CO2, N2, and H2O

Author

Mason, Jarad A, McDonald, Thomas M, Bae, Tae-Hyun, Bachman, Jonathan E, Sumida, Kenji, Dutton, Justin J, Kaye, Steven S, and Long, Jeffrey R

Subjects
Climate Action, Chemical Sciences, General Chemistry
Abstract

Despite the large number of metal-organic frameworks that have been studied in the context of post-combustion carbon capture, adsorption equilibria of gas mixtures including CO2, N2, and H2O, which are the three biggest components of the flue gas emanating from a coal- or natural gas-fired power plant, have never been reported. Here, we disclose the design and validation of a high-throughput multicomponent adsorption instrument that can measure equilibrium adsorption isotherms for mixtures of gases at conditions that are representative of an actual flue gas from a power plant. This instrument is used to study 15 different metal-organic frameworks, zeolites, mesoporous silicas, and activated carbons representative of the broad range of solid adsorbents that have received attention for CO2 capture. While the multicomponent results presented in this work provide many interesting fundamental insights, only adsorbents functionalized with alkylamines are shown to have any significant CO2 capacity in the presence of N2 and H2O at equilibrium partial pressures similar to those expected in a carbon capture process. Most significantly, the amine-appended metal organic framework mmen-Mg2(dobpdc) (mmen = N,N'-dimethylethylenediamine, dobpdc (4-) = 4,4'-dioxido-3,3'-biphenyldicarboxylate) exhibits a record CO2 capacity of 4.2 ± 0.2 mmol/g (16 wt %) at 0.1 bar and 40 °C in the presence of a high partial pressure of H2O.

Published
2015

13. Unveiling Unexpected Modulator-CO2 Dynamics within a Zirconium Metal–Organic Framework

Author

Rayder, Thomas M., primary, Formalik, Filip, additional, Vornholt, Simon M., additional, Frank, Hilliary, additional, Lee, Seryeong, additional, Alzayer, Maytham, additional, Chen, Zhihengyu, additional, Sengupta, Debabrata, additional, Islamoglu, Timur, additional, Paesani, Francesco, additional, Chapman, Karena W., additional, Snurr, Randall Q., additional, and Farha, Omar K., additional

Published
2023
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16. Prospects for Antibacterial Discovery and Development

Author

Nathanael S. Gray, Chaitan Khosla, Jinhua Wang, Christopher T. Walsh, Alexander M Soohoo, Thomas M Privalsky, Gerard D. Wright, and Eric M. Gordon

Subjects
Druggability, Gram-Positive Bacteria, Biochemistry, beta-Lactamases, Article, Catalysis, Panacea (medicine), 03 medical and health sciences, Colloid and Surface Chemistry, Lead (geology), Bacterial Proteins, Drug Resistance, Multiple, Bacterial, Drug Discovery, Gram-Negative Bacteria, Polypharmacology, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, Alkyl and Aryl Transferases, 030306 microbiology, Chemistry, General Chemistry, Anti-Bacterial Agents, Antibacterial resistance, Risk analysis (engineering), Genome mining, beta-Lactamase Inhibitors
Abstract

The rising prevalence of multi-drug resistant bacteria is an urgent health crisis that can only be countered through renewed investment in the discovery and development of antibiotics. There is no panacea for the antibacterial resistance crisis; instead, a multi-faceted approach is called for. In this perspective we make the case that, in the face of evolving clinical needs and enabling technologies, numerous validated antibacterial targets and associated lead molecules deserve a second look. At the same time, many worthy targets lack good leads despite harboring druggable active sites. Creative and inspired techniques buoy discovery efforts; while soil screening efforts frequently lead to antibiotic rediscovery, researchers have found success searching for new antibiotic leads by studying underexplored ecological niches or by leveraging the abundance of available data from genome mining efforts. The judicious use of “polypharmacology” (i.e., the ability of a drug to alter the activities of multiple targets) can also provide new opportunities, as can the continued search for inhibitors of resistance enzymes with the capacity to breathe new life into old antibiotics. We conclude by highlighting available pharmacoeconomic models for antibacterial discovery and development while making the case for new ones.

Published
2021

17. Taming PH

Author

Thomas M, Hood, Samantha, Lau, and Ruth L, Webster

Subjects
Coordination Complexes, Metals, Transition Elements, Phosphorus
Abstract

Appetite for reactions involving PH

Published
2022

21. An Enantioselective Suzuki-Miyaura Coupling To Form Axially Chiral Biphenols

Author

Robert Pearce-Higgins, Larissa N. Hogenhout, Philip J. Docherty, David M. Whalley, Padon Chuentragool, Najung Lee, Nelson Y. S. Lam, Thomas M. McGuire, Damien Valette, and Robert J. Phipps

Subjects
Colloid and Surface Chemistry, Stereoisomerism, General Chemistry, Ligands, Biochemistry, Catalysis
Abstract

Axial chirality features prominently in molecules of biological interest as well as chiral catalyst designs, and atropisomeric 2,2'-biphenols are particularly prevalent. Atroposelective metal-catalyzed cross-coupling is an attractive and modular approach to access enantioenriched biphenols, and yet existing protocols cannot achieve this directly. We address this challenge through the use of enantiopure, sulfonated

Published
2022

23. Engineering Second Sphere Interactions in a Host–Guest Multicomponent Catalyst System for the Hydrogenation of Carbon Dioxide to Methanol

Author

Jeffery A. Byers, Adam T. Bensalah, Banruo Li, Chia-Kuang Tsung, and Thomas M. Rayder

Subjects
Coordination sphere, Primary (chemistry), General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Combinatorial chemistry, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Carbon dioxide, Methanol, Selectivity
Abstract

Many enzymes utilize interactions extending beyond the primary coordination sphere to enhance catalyst activity and/or selectivity. Such interactions could improve the efficacy of synthetic catalyst systems, but the supramolecular assemblies employed by biology to incorporate second sphere interactions are challenging to replicate in synthetic catalysts. Herein, a strategy is reported for efficiently manipulating outer-sphere influence on catalyst reactivity by modulating host-guest interactions between a noncovalently encapsulated transition-metal-based catalyst guest and a metal-organic framework (MOF) host. This composite consists of a ruthenium PNP pincer complex encapsulated in the MOF UiO-66 that is used in tandem with the zirconium oxide nodes of UiO-66 and a ruthenium PNN pincer complex to hydrogenate carbon dioxide to methanol. Due to the method used to incorporate the complexes in UiO-66, structure-activity relationships could be efficiently determined using a variety of functionalized UiO-66-X hosts. These investigations uncovered the beneficial effects of the ammonium functional group (i.e., UiO-66-NH

Published
2021

24. Nitrocarbamoyl Azide O2NN(H)C(O)N3: A Stable but Highly Energetic Member of the Carbonyl Azide Family

Author

Maximilian Benz, Marcus Lommel, Jörg Stierstorfer, Burkhard Krumm, and Thomas M. Klapötke

Subjects
Hydrazine, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Decomposition, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, Deprotonation, chemistry, Reagent, Polymer chemistry, Melting point, Reactivity (chemistry), Azide, Methanol
Abstract

The diazotization of nitrosemicarbazide (1) resulted in the formation and isolation of nitrocarbamoyl azide (2), which was thoroughly characterized by spectroscopic and structural methods. This compound shows surprising stability but also high reactivity and sensitivity, with a melting point of 72 °C and a detonative decomposition point at 83 °C. In addition, five selected salts were synthesized by careful deprotonation. The decomposition mechanism of 2 in solution was investigated and could be clarified by performing experiments using methanol and hydrazine as trapping reagents. The energetic and physicochemical properties of all these compounds were investigated and classified.

Published
2021

27. Stimuli-Modulated Metal Oxidation States in Photochromic MOFs

Author

Corey R. Martin, Kyoung Chul Park, Gabrielle A. Leith, Jierui Yu, Abhijai Mathur, Gina R. Wilson, Gayathri B. Gange, Emily L. Barth, Richard T. Ly, Olivia M. Manley, Kelly L. Forrester, Stavros G. Karakalos, Mark D. Smith, Thomas M. Makris, Aaron K. Vannucci, Dmitry V. Peryshkov, and Natalia B. Shustova

Subjects
Colloid and Surface Chemistry, Metals, General Chemistry, Biochemistry, Oxidation-Reduction, Catalysis, Metal-Organic Frameworks
Abstract

Tuning metal oxidation states in metal-organic framework (MOF) nodes by switching between two discrete linker photoisomers via an external stimulus was probed for the first time. On the examples of three novel photochromic copper-based frameworks, we demonstrated the capability of switching between +2 and +1 oxidation states, on demand. In addition to crystallographic methods used for material characterization, the role of the photochromic moieties for tuning the oxidation state was probed via conductivity measurements, cyclic voltammetry, and electron paramagnetic resonance, X-ray photoelectron, and diffuse reflectance spectroscopies. We confirmed the reversible photoswitching activity including photoisomerization rate determination of spiropyran- and diarylethene-containing linkers in extended frameworks, resulting in changes in metal oxidation states as a function of alternating excitation wavelengths. To elucidate the switching process between two states, the photoisomerization quantum yield of photochromic MOFs was determined for the first time. Overall, the introduced noninvasive concept of metal oxidation state modulation on the examples of stimuli-responsive MOFs foreshadows a new pathway for alternation of material properties toward targeted applications.

Published
2022

28. Evidence for Entropically Controlled Interfacial Hydration in Mesoporous Organosilicas

Author

Hyunjin Moon, Ryan P. Collanton, Jacob I. Monroe, Thomas M. Casey, M. Scott Shell, Songi Han, and Susannah L. Scott

Subjects
Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis
Abstract

At aqueous interfaces, the distribution and dynamics of adsorbates are modulated by the behavior of interfacial water. Hydration of a hydrophobic surface can store entropy via the ordering of interfacial water, which contributes to the Gibbs energy of solute binding. However, there is little experimental evidence for the existence of such entropic reservoirs, and virtually no precedent for their rational design in systems involving extended interfaces. In this study, two series of mesoporous silicas were modified in distinct ways: (1) progressively deeper thermal dehydroxylation, via condensation of surface silanols, and (2) increasing incorporation of nonpolar organic linkers into the silica framework. Both approaches result in decreasing average surface polarity, manifested in a blue-shift in the fluorescence of an adsorbed dye. For the inorganic silicas, hydrogen-bonding of water becomes less extensive as the number of surface silanols decreases. Overhauser dynamic nuclear polarization (ODNP) relaxometry indicates enhanced surface water diffusivity, reflecting a loss of enthalpic hydration. In contrast, organosilicas show a monotonic decrease in surface water diffusivity with decreasing polarity, reflecting enhanced hydrophobic hydration. Molecular dynamics simulations predict increased tetrahedrality of interfacial water for the organosilicas, implying increased ordering near the nm-size organic domains (relative to inorganic silicas, which necessarily lack such domains). These findings validate the prediction that hydrophobic hydration at interfaces is controlled by the microscopic length scale of the hydrophobic regions. They further suggest that the hydration thermodynamics of structurally heterogeneous silica surfaces can be tuned to promote adsorption, which in turn tunes the selectivity in catalytic reactions.

Published
2022

29. Bacterial Pathogen Infection Triggers Magic Spot Nucleotide Signaling in Arabidopsis thalianaChloroplasts through Specific RelA/SpoT Homologues

Author

Qiu, Danye, Lange, Esther, Haas, Thomas M., Prucker, Isabel, Masuda, Shinji, Wang, Yan L., Felix, Georg, Schaaf, Gabriel, and Jessen, Henning J.

Abstract

Magic spot nucleotides (p)ppGpp are important signaling molecules in bacteria and plants. In the latter, RelA-SpoT homologue (RSH) enzymes are responsible for (p)ppGpp turnover. Profiling of (p)ppGpp is more difficult in plants than in bacteria due to lower concentrations and more severe matrix effects. Here, we report that capillary electrophoresis mass spectrometry (CE-MS) can be deployed to study (p)ppGpp abundance and identity in Arabidopsis thaliana. This goal is achieved by combining a titanium dioxide extraction protocol and pre-spiking with chemically synthesized stable isotope-labeled internal reference compounds. The high sensitivity and separation efficiency of CE-MS enables monitoring of changes in (p)ppGpp levels in A. thalianaupon infection with the pathogen Pseudomonas syringaepv. tomato (PstDC3000). We observed a significant increase of ppGpp post infection that is also stimulated by the flagellin peptide flg22 only. This increase depends on functional flg22 receptor FLS2 and its interacting kinase BAK1 indicating that pathogen-associated molecular pattern (PAMP) receptor-mediated signaling controls ppGpp levels. Transcript analyses showed an upregulation of RSH2upon flg22 treatment and both RSH2and RSH3after PstDC3000infection. Arabidopsismutants deficient in RSH2 and RSH3 activity display no ppGpp accumulation upon infection and flg22 treatment, supporting the involvement of these synthases in PAMP-triggered innate immune responses to pathogens within the chloroplast.

Published
2023
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30. Stimuli-Modulated Metal Oxidation States in Photochromic MOFs

Author

Martin, Corey R., primary, Park, Kyoung Chul, additional, Leith, Gabrielle A., additional, Yu, Jierui, additional, Mathur, Abhijai, additional, Wilson, Gina R., additional, Gange, Gayathri B., additional, Barth, Emily L., additional, Ly, Richard T., additional, Manley, Olivia M., additional, Forrester, Kelly L., additional, Karakalos, Stavros G., additional, Smith, Mark D., additional, Makris, Thomas M., additional, Vannucci, Aaron K., additional, Peryshkov, Dmitry V., additional, and Shustova, Natalia B., additional

Published
2022
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34. Prospects for Antibacterial Discovery and Development

Author

Privalsky, Thomas M., primary, Soohoo, Alexander M., additional, Wang, Jinhua, additional, Walsh, Christopher T., additional, Wright, Gerard D., additional, Gordon, Eric M., additional, Gray, Nathanael S., additional, and Khosla, Chaitan, additional

Published
2021
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35. Unveiling Unexpected Modulator-CO2Dynamics within a Zirconium Metal–Organic Framework

Author

Rayder, Thomas M., Formalik, Filip, Vornholt, Simon M., Frank, Hilliary, Lee, Seryeong, Alzayer, Maytham, Chen, Zhihengyu, Sengupta, Debabrata, Islamoglu, Timur, Paesani, Francesco, Chapman, Karena W., Snurr, Randall Q., and Farha, Omar K.

Abstract

Carbon capture, storage, and utilization (CCSU) represents an opportunity to mitigate carbon emissions that drive global anthropogenic climate change. Promising materials for CCSU through gas adsorption have been developed by leveraging the porosity, stability, and tunability of extended crystalline coordination polymers called metal–organic frameworks (MOFs). While the development of these frameworks has yielded highly effective CO2sorbents, an in-depth understanding of the properties of MOF pores that lead to the most efficient uptake during sorption would benefit the rational design of more efficient CCSU materials. Though previous investigations of gas–pore interactions often assumed that the internal pore environment was static, discovery of more dynamic behavior represents an opportunity for precise sorbent engineering. Herein, we report a multifaceted in situanalysis following the adsorption of CO2in MOF-808 variants with different capping agents (formate, acetate, and trifluoroacetate: FA, AA, and TFA, respectively). In situdiffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) analysis paired with multivariate analysis tools and in situpowder X-ray diffraction revealed unexpected CO2interactions at the node associated with dynamic behavior of node-capping modulators in the pores of MOF-808, which had previously been assumed to be static. MOF-808-TFA displays two binding modes, resulting in higher binding affinity for CO2. Computational analyses further support these dynamic observations. The beneficial role of these structural dynamics could play an essential role in building a deeper understanding of CO2binding in MOFs.

Published
2023
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36. Divergent Catalytic Strategies for the Cis/Trans Stereoselective Ring-Opening Polymerization of a Dual Cyclic Carbonate/Olefin Monomer

Author

Cécile Pérale, Gabriele Kociok-Köhn, Antoine Buchard, Rémi Castaing, and Thomas M. McGuire

Subjects
chemistry.chemical_classification, Olefin fiber, Chemistry(all), Chemistry, General Chemistry, Polymer, 010402 general chemistry, 01 natural sciences, Biochemistry, Ring-opening polymerization, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, Monomer, Polymerization, Polymer chemistry, Carbonate, Cis–trans isomerism
Abstract

A dual seven-membered cyclic carbonate/olefin monomer was synthesized from CO2 and cis-1,4-butenediol and polymerized. The properties of the polymer were controlled using divergent catalytic strategies toward the stereochemistry of the olefin. Ring-opening polymerization of the cyclic carbonate using an organocatalytic approach retained the cis-stereoconfiguration of the olefin and yielded a hard semicrystalline polymer (Tm 115 °C). Ring-opening metathesis polymerization using Grubbs’ catalyst proceeded with high trans-stereoregularity (95%) and produced a soft amorphous polymer (Tg −22 °C). Cis to trans isomerization of the polymer was possible using Cu(I) salts under UV light. In all polymers, the C═C double bond remained available for postpolymerization modification and thermoset resins were formed by cross-linking. From this single monomer, cis-trans-cis triblock copolymers, with potential applications as thermoplastic elastomers, were synthesized by combining both strategies using cis-1,4-butenediol as a chain transfer agent.

Published
2019

37. Multistep Solid-State Organic Synthesis of Carbamate-Linked Covalent Organic Frameworks

Author

Omar M. Yaghi, Xiaokun Pei, Steven J. Lyle, Thomas M. Osborn Popp, Jeffrey A. Reimer, and Peter J. Waller

Subjects
chemistry.chemical_classification, Molecular Structure, Surface Properties, Chemistry, General Chemistry, Nuclear magnetic resonance spectroscopy, Biochemistry, Combinatorial chemistry, Catalysis, Crystallinity, chemistry.chemical_compound, Colloid and Surface Chemistry, Covalent bond, Non-covalent interactions, Molecule, Organic synthesis, Amine gas treating, Carbamates, Imines, Porosity, Covalent organic framework
Abstract

Herein, we demonstrate the first example of a multistep solid-state organic synthesis, in which a new imine-linked two-dimensional covalent organic framework (COF-170, 1) was transformed through three consecutive postsynthetic modifications into porous, crystalline cyclic carbamate and thiocarbamate-linked frameworks. These linkages are previously unreported and inaccessible through de novo synthesis. While not altering the overall connectivity of the framework, these chemical transformations induce significant conformational and structural changes at each step, highlighting the key importance of noncovalent interactions and conformational flexibility to COF crystallinity and porosity. These transformations were assessed using 15N multiCP-MAS NMR spectroscopy, providing the first quantitation of yields in COF postsynthetic modification reactions, as well as of amine defect sites in imine-linked COFs. This multistep COF linkage postsynthetic modification represents a significant step toward bringing the precision of organic solution-phase synthesis to extended solid-state compounds.

Published
2019

38. Oxidative Decarboxylase UndA Utilizes a Dinuclear Iron Cofactor

Author

Ruixi Fan, Olivia M. Manley, Yisong Guo, and Thomas M. Makris

Subjects
Models, Molecular, Carboxy-Lyases, Protein Conformation, Decarboxylation, Stereochemistry, Iron, Coenzymes, chemistry.chemical_element, Oxidative phosphorylation, 010402 general chemistry, 01 natural sciences, Biochemistry, Oxygen, Catalysis, Cofactor, Colloid and Surface Chemistry, Unda, chemistry.chemical_classification, biology, Chemistry, General Chemistry, biology.organism_classification, 0104 chemical sciences, Enzyme, biology.protein, Oxidation-Reduction, Stoichiometry
Abstract

UndA is a nonheme iron enzyme that activates oxygen to catalyze the decarboxylation of dodecanoic acid to undecene and carbon dioxide. We report the first optical and Mössbauer spectroscopic characterization of UndA, revealing that the enzyme harbors a coupled dinuclear iron cluster. Single turnover studies confirm that the reaction of the diferrous enzyme with dioxygen produces stoichiometric product per cluster. UndA is the first characterized example of a diiron decarboxylase, thus expanding the repertoire of reactions catalyzed by dinuclear iron enzymes.

Published
2019

40. Magnetic Control over the Fractal Dimension of Supramolecular Rod Networks

Author

Marichez, Vincent, primary, Sato, Akihiro, additional, Dunne, Peter A., additional, Leira-Iglesias, Jorge, additional, Formon, Georges J. M., additional, Schicho, Michaela K., additional, de Feijter, Isja, additional, Hébraud, Pascal, additional, Bailleul, Matthieu, additional, Besenius, Pol, additional, Venkatesan, Munuswamy, additional, Coey, J. M. D., additional, Meijer, E. W., additional, and Hermans, Thomas M., additional

Published
2021
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41. Effects of template sequence and secondary structure on DNA-templated reactivity

Author

Snyder, Thomas M., Tse, Brian N., and Liu, David R.

Subjects
Chemistry
Abstract

The effects of template sequence and secondary structure on DNA-templated reactivity are examined. The relationship between effective molarity and intervening nucleic acid secondary structure is applied to nucleic acid sequences in living systems that has separated interacting biological molecules.

Published
2008

42. Stepwise noncovalent synthesis leading to dendrimer-based assemblies in water

Author

Hermans, Thomas M., Broeren, Maarten A.C., Gomopoulos, Nikos, Smeijers, A.F., Mezari, Brahim, Van Leeuwen, Ellen N.M., Vos, Matthijn R.J., Magusin, Pieter C.M.M., Hilbers, Peter A.J., Van Genderen, Marcel H.P., Sommerdijk, Nico A.J.M., Fytas, George, and Meijer, E.W.

Subjects
Dendrimers -- Research, Chloroform -- Usage, Chloroform -- Chemical properties, Chemistry
Abstract

A step-wise noncovalent synthetic procedure involving a preassembly step in chloroform is used to obtain dendrimer-based guest-host assemblies in water. The concepts of stepwise noncovalent synthesis have provided valuable tools for obtaining new supramolecular assemblies.

Published
2007

43. Aperture-Opening Encapsulation of a Transition Metal Catalyst in a Metal–Organic Framework for CO2 Hydrogenation

Author

Lianshun Luo, Chia-Kuang Tsung, Thomas M. Rayder, Jeffery A. Byers, and Zhehui Li

Subjects
Zirconium, chemistry.chemical_element, Homogeneous catalysis, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Catalyst poisoning, Catalysis, 0104 chemical sciences, Ruthenium, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Transition metal, Pyridine, Polymer chemistry, Formate, 0210 nano-technology
Abstract

The aperture-opening process resulting from dissociative linker exchange in zirconium-based metal–organic framework (MOF) UiO-66 was used to encapsulate the ruthenium complex (tBuPNP)Ru(CO)HCl in the framework (tBuPNP = 2,6-bis((di-tert-butyl-phosphino)methyl)pyridine). The resulting encapsulated complex, [Ru]@UiO-66, was a very active catalyst for the hydrogenation of CO2 to formate. Unlike the analogous homogeneous catalyst, [Ru]@UiO-66 could be recycled five times, showed no evidence for bimolecular catalyst decomposition, and was less prone to catalyst poisoning. These results demonstrated for the first time how the aperture-opening process in MOFs can be used to synthesize host–guest materials useful for chemical catalysis.

Published
2018

44. Unraveling the aflatoxin-FAPY conundrum: Structural basis for differential replicative processing of isomeric forms of the formamidopyrimidine-type DNA adduct of aflatoxin [B.sub.1]

Author

Brown, Kyle L., Deng, James Z., Iyer, Rajkumar S., Iyer, Lalitha G., Voehler, Markus W., Stone, Michael P., Harris, Constance M., and Harris, Thomas M.

Subjects
Aflatoxins -- Research, DNA replication -- Research, Oligodeoxynucleotides -- Research, Chemistry
Abstract

The structural studies of aflatoxin [B.sub.1]-formamidopyrimidine (AFB-FAPY) derivatives conducted with the adducted base, nucleoside and oligodeoxynucleotides are described. The results have helped in understanding the structural basis of the differential processing that occurs during replication of DNA containing the two forms of the AFB-FAPY lesion.

Published
2006

47. Targeting the APP-Mint2 Protein–Protein Interaction with a Peptide-Based Inhibitor Reduces Amyloid-β Formation

Author

Bartling, Christian R. O., primary, Jensen, Thomas M. T., additional, Henry, Shawna M., additional, Colliander, Anna L., additional, Sereikaite, Vita, additional, Wenzler, Marcella, additional, Jain, Palash, additional, Maric, Hans M., additional, Harpsøe, Kasper, additional, Pedersen, Søren W., additional, Clemmensen, Louise S., additional, Haugaard-Kedström, Linda M., additional, Gloriam, David E., additional, Ho, Angela, additional, and Strømgaard, Kristian, additional

Published
2021
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48. Spectroscopic characterization of interstrand carbinolamine cross-links formed in the 5'-CpG-3' sequence by the acrolein-derived gamma-OH-1,N(super 2)-propano-2'-deoxyguanosine DNA adduct

Author

Young-Jin Cho, Hye-Young Kim, Hai Huang, Slutsky, Alvira, Harris, Thomas M., Minko, Irina G., Hao Wang, Nechev, Nechev, Lumbomir V., Kozekov, Ivan D., Kozekova, Albena, Tamura, Pamela, Jacob, Jaison, Voehler, Markus, Lloyd, R. Stephen, Rizzo, Carmelo J., and Stone, Michael P.

Subjects
Methanol -- Chemical properties, Amines -- Chemical properties, Guanosine -- Chemical properties, Chemistry
Abstract

The interstrand N(super 2), N(super 2)-dG DNA cross-linking chemistry of the acrolein-derived gamma-OH-1,N(super 2) propandeoxyguanosine (gamma-OH-PdG) adduct in the 5'-CpG-3' sequences is monitored within a dodecamer duplex by NMR spectroscopy. When the gamma-OH-PdG adduct contained within the 5'-CpG-3' sequence is annealed into the duplex DNA opposite T, a mixture of the 1,N(super 2)-dG cyclic adduct, the aldehyde, and the diol, but no cross-link, is observed.

Published
2005

49. Resonance Raman spectroscopic studies of hydroperoxo-myoglobin at cryogenic temperatures

Author

Ibrahim, Mohammed, Denisov, Ilia G., Makris, Thomas M., Kincaid, James R., and Sligar, Stephen G.

Subjects
Raman spectroscopy -- Usage, Resonance -- Usage, Myoglobin -- Thermal properties, Chemistry
Abstract

Resonance Raman spectroscopic studies of the annealed samples of hydroperoxo-myoglobin at cryogenic temperatures were performed for observing the key v(Fe-O) stretching mode of the physiologically important Fe-OOH fragment of the intermediate. The results show that the v(Fe-O) mode of hydroperoxo-Mb species occurs at 617 cm(super -1) and exhibits a 25 cm(super -1) shift for the (super 18)O analogue and displays a 4-5 cm(super -1) shift to lower frequencies in D2O.

Published
2003

50. Imidazopyridine/pyrrole and Hydroxybenzimidazole/pyrrole pairs for DNA minor groove recognition

Author

Renneberg, Dorte, Dervan, Peter B., Harris, Thomas M., Rizzo, Carmelo J., Acharya, Tara, Hedman, Britt, Caradonna, John P, Hodgson, Keith O., and Solomon, Edward I.

Subjects
Pyridine -- Usage, Pyrrole -- Usage, DNA binding proteins -- Research, Chemistry
Abstract

The DNA binding properties of fused heterocycles imidazo[4,5-b]pyridine (Ip) and hydroxybenzimidazole (Hz) paired with pyrrole (Py) in eight-ring hairpin polyamides are reported. The recognition profile of Ip/Py and Hz/Py pairs were compared to the five-membered ring pairs Im/Py and Hp/Py on a DNA restriction fragment at four 6-base pair recognition sites.

Published
2003

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