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1,320 results on '"Long JR"'

1. Non-empty intersection of longest paths in $H$-free graphs

Author

Long Jr., James A., Milans, Kevin G., and Munaro, Andrea

Subjects
Mathematics - Combinatorics, Computer Science - Discrete Mathematics
Abstract

We make progress toward a characterization of the graphs $H$ such that every connected $H$-free graph has a longest path transversal of size $1$. In particular, we show that the graphs $H$ on at most $4$ vertices satisfying this property are exactly the linear forests. We also show that if the order of a connected graph $G$ is large relative to its connectivity $\kappa(G)$, and its independence number $\alpha(G)$ satisfies $\alpha(G) \le \kappa(G) + 2$, then each vertex of maximum degree forms a longest path transversal of size $1$., Comment: A previous arXiv post (arXiv:2005.02716) has been split into two parts; this is the second part

Published
2023

2. Proteo-metabolomics and patient tumor slice experiments point to amino acid centrality for rewired mitochondria in fibrolamellar carcinoma

Author

Donald Long, Jr., Marina Chan, Mingqi Han, Zeal Kamdar, Rosanna K. Ma, Pei-Yin Tsai, Adam B. Francisco, Joeva Barrow, David B. Shackelford, Mark Yarchoan, Matthew J. McBride, Lukas M. Orre, Nathaniel M. Vacanti, Taranjit S. Gujral, and Praveen Sethupathy

Subjects
fibrolamellar carcinoma, proteomics, metabolomics, mitochondria, glucose, glutamine, Medicine (General), R5-920
Abstract

Summary: Fibrolamellar carcinoma (FLC) is a rare, lethal, early-onset liver cancer with a critical need for new therapeutics. The primary driver in FLC is the fusion oncoprotein, DNAJ-PKAc, which remains challenging to target therapeutically. It is critical, therefore, to expand understanding of the FLC molecular landscape to identify druggable pathways/targets. Here, we perform the most comprehensive integrative proteo-metabolomic analysis of FLC. We also conduct nutrient manipulation, respirometry analyses, as well as key loss-of-function assays in FLC tumor tissue slices from patients. We propose a model of cellular energetics in FLC pointing to proline anabolism being mediated by ornithine aminotransferase hyperactivity and ornithine transcarbamylase hypoactivity with serine and glutamine catabolism fueling the process. We highlight FLC’s potential dependency on voltage-dependent anion channel (VDAC), a mitochondrial gatekeeper for anions including pyruvate. The metabolic rewiring in FLC that we propose in our model, with an emphasis on mitochondria, can be exploited for therapeutic vulnerabilities.

Published
2024
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3. Sublinear Longest Path Transversals

Author

Long Jr., James A., Milans, Kevin G., and Munaro, Andrea

Subjects
Mathematics - Combinatorics, Computer Science - Discrete Mathematics
Abstract

We show that connected graphs admit sublinear longest path transversals. This improves an earlier result of Rautenbach and Sereni and is related to the fifty-year-old question of whether connected graphs admit longest path transversals of constant size. The same technique allows us to show that $2$-connected graphs admit sublinear longest cycle transversals., Comment: A previous version of this arXiv post has been split into two parts; this is the first of the two parts

Published
2020
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4. Exchange bias due to coupling between coexisting antiferromagnetic and spin-glass orders

Author

Maniv, E, Murphy, RA, Haley, SC, Doyle, S, John, C, Maniv, A, Ramakrishna, SK, Tang, YL, Ercius, P, Ramesh, R, Reyes, AP, Long, JR, and Analytis, JG

Subjects
Fluids & Plasmas, Mathematical Sciences, Physical Sciences
Abstract

Exchange bias is a property of widespread technological utility, but its underlying mechanism remains elusive, in part because it is rooted in the interaction of coexisting order parameters in the presence of complex magnetic disorder. Here we show that a giant exchange bias housed within a spin-glass phase arises in a disordered antiferromagnet. The magnitude and robustness of the exchange bias emerges from a convolution of two energetic landscapes, namely the highly degenerate landscape of the spin glass biased by the sublattice spin configuration of the antiferromagnet. The former provides a source of uncompensated moment, whereas the latter provides a mechanism for its pinning, which leads to the exchange bias. Tuning the relative strengths of the spin-glass and antiferromagnetic order parameters reveals a principle for tailoring the exchange bias, with potential applications to spintronic technologies.

Published
2021

5. Influence of Pore Size on Carbon Dioxide Diffusion in Two Isoreticular Metal-Organic Frameworks

Author

Forse, AC, Colwell, KA, Gonzalez, MI, Benders, S, Torres-Gavosto, RM, Blümich, B, Reimer, JA, and Long, JR

Subjects
Materials, Chemical Sciences, Engineering
Abstract

The rapid diffusion of molecules in porous materials is critical for numerous applications including separations, energy storage, sensing, and catalysis. A common strategy for tuning guest diffusion rates is to vary the material pore size, although detailed studies that isolate the effect of changing this particular variable are lacking. Here, we begin to address this challenge by measuring the diffusion of carbon dioxide in two isoreticular metal-organic frameworks featuring channels with different diameters, Zn2(dobdc) (dobdc4- = 2,5-dioxidobenzene-1,4-dicarboxylate) and Zn2(dobpdc) (dobpdc4- = 4,4′-dioxidobiphenyl-3,3′-dicarboxylate), using pulsed field gradient NMR spectroscopy. An increase in the pore diameter from 15 Å in Zn2(dobdc) to 22 Å in Zn2(dobpdc) is accompanied by an increase in the self-diffusion of CO2 by a factor of 4 to 6, depending on the gas pressure. Analysis of the diffusion anisotropy in Zn2(dobdc) reveals that the self-diffusion coefficient for motion of CO2 along the framework channels is at least 10000 times greater than for motion between the framework channels. Our findings should aid the design of improved porous materials for a range of applications where diffusion plays a critical role in determining performance.

Published
2020

6. Cooperative Carbon Dioxide Adsorption in Alcoholamine- and Alkoxyalkylamine-Functionalized Metal-Organic Frameworks.

Author

Mao, VY, Milner, PJ, Lee, J-H, Forse, AC, Kim, EJ, Siegelman, RL, McGuirk, CM, Porter-Zasada, LB, Neaton, JB, Reimer, JA, and Long, JR

Subjects
DFT calculations, NMR spectroscopy, carbon capture, carbon dioxide, metal-organic frameworks, Chemical Sciences, Organic Chemistry
Abstract

A series of structurally diverse alcoholamine- and alkoxyalkylamine-functionalized variants of the metal-organic framework Mg2 (dobpdc) are shown to adsorb CO2 selectively via cooperative chain-forming mechanisms. Solid-state NMR spectra and optimized structures obtained from van der Waals-corrected density functional theory calculations indicate that the adsorption profiles can be attributed to the formation of carbamic acid or ammonium carbamate chains that are stabilized by hydrogen bonding interactions within the framework pores. These findings significantly expand the scope of chemical functionalities that can be utilized to design cooperative CO2 adsorbents, providing further means of optimizing these powerful materials for energy-efficient CO2 separations.

Published
2019

7. Combined Nuclear Magnetic Resonance and Molecular Dynamics Study of Methane Adsorption in M2(dobdc) Metal-Organic Frameworks

Author

Witherspoon, VJ, Mercado, R, Braun, E, Mace, A, Bachman, J, Long, JR, Blümich, B, Smit, B, and Reimer, JA

Subjects
Engineering, Chemical Sciences, Technology, Physical Chemistry
Abstract

We examine the diffusion of methane in the metal-organic frameworks M2(dobdc) (M = Mg, Ni, Zn; dobdc4- = 2,5-dioxido-1,4-benzenedicarboxylate) as a function of methane loading through a combination of nuclear magnetic resonance and molecular dynamics simulations. At low gas densities, our results suggest that favorable CH4-CH4 interactions lower the free energy barrier for methane hopping between coordinatively unsaturated metal sites and thus enhance the translational motion of methane down the c-axis. At higher gas densities, CH4-CH4 interactions become more significant, CH4-CH4 collisions become more frequent, and the gas self-diffusion begins to decrease. Finally, we observe that the self-diffusion coefficient of methane is inversely related to the binding energy at the coordinatively unsaturated metal sites, such that diffusion is most rapid in the Zn2(dobdc) framework.

Published
2019

10. An assessment of strategies for the development of solid-state adsorbents for vehicular hydrogen storage

Author

Allendorf, MD, Hulvey, Z, Gennett, T, Ahmed, A, Autrey, T, Camp, J, Seon Cho, E, Furukawa, H, Haranczyk, M, Head-Gordon, M, Jeong, S, Karkamkar, A, Liu, DJ, Long, JR, Meihaus, KR, Nayyar, IH, Nazarov, R, Siegel, DJ, Stavila, V, Urban, JJ, Veccham, SP, and Wood, BC

Subjects
MD Multidisciplinary, Energy
Abstract

Nanoporous adsorbents are a diverse category of solid-state materials that hold considerable promise for vehicular hydrogen storage. Although impressive storage capacities have been demonstrated for several materials, particularly at cryogenic temperatures, materials meeting all of the targets established by the U.S. Department of Energy have yet to be identified. In this Perspective, we provide an overview of the major known and proposed strategies for hydrogen adsorbents, with the aim of guiding ongoing research as well as future new storage concepts. The discussion of each strategy includes current relevant literature, strengths and weaknesses, and outstanding challenges that preclude implementation. We consider in particular metal-organic frameworks (MOFs), including surface area/volume tailoring, open metal sites, and the binding of multiple H2 molecules to a single metal site. Two related classes of porous framework materials, covalent organic frameworks (COFs) and porous aromatic frameworks (PAFs), are also discussed, as are graphene and graphene oxide and doped porous carbons. We additionally introduce criteria for evaluating the merits of a particular materials design strategy. Computation has become an important tool in the discovery of new storage materials, and a brief introduction to the benefits and limitations of computational predictions of H2 physisorption is therefore presented. Finally, considerations for the synthesis and characterization of hydrogen storage adsorbents are discussed.

Published
2018

11. Uncovering the Local Magnesium Environment in the Metal-Organic Framework Mg2(dobpdc) Using 25Mg NMR Spectroscopy

Author

Xu, J, Blaakmeer, ESM, Lipton, AS, McDonald, TM, Liu, YM, Smit, B, Long, JR, Kentgens, APM, and Reimer, JA

Subjects
Physical Chemistry, Engineering, Chemical Sciences, Technology
Abstract

The incorporation of N,N′-dimethylethylenediamine into an expanded MOF-74 framework has yielded a material (mmen-Mg2(dobpdc)) exhibiting "step-shaped" CO2 adsorption isotherms. The coordination of mmen at the Mg open metal center is essential for the unique cooperative adsorption mechanism elucidated for this material. Despite its importance for carbon capture, there is as yet no experimental structure determination available for the underlying metal-organic framework Mg2(dobpdc). Our 25Mg solid-state NMR data unravel the local Mg environments in several Mg2(dobpdc) samples, unambiguously confirming the formation of five-coordinate Mg centers in the activated material and six-coordinate Mg centers in the solvent- or diamine-loaded samples, such as mmen-Mg2(dobpdc). A fraction of the Mg centers exhibit local disorder due to the framework deformation accompanied by the guest distributions and dynamics.

Published
2017

12. Practice-based Evidence from Comparative Effectiveness Research to Inform Evidence-based Practice.

Author

Long Jr, Ross E. and Hathaway, Ronald R.

Abstract

The article focuses on the use of Practice-Based Evidence from Comparative Effectiveness Research (PBE-CER) as an alternative to randomized controlled trials (RCTs) in evidence-based practice. Topics include the limitations of RCTs in orthodontics, the benefits of PBE-CER for informing clinical practices, and the importance of peer benchmarking to improve treatment outcomes.

Published
2025
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16. Cobalt Polypyridyl Complexes as Transparent Solution-Processable Solid-State Charge Transport Materials

Author

Kashif, MK, Milhuisen, RA, Nippe, M, Hellerstedt, J, Zee, DZ, Duffy, NW, Halstead, B, De Angelis, F, Fantacci, S, Fuhrer, MS, Chang, CJ, Cheng, YB, Long, JR, Spiccia, L, and Bach, U

Subjects
Macromolecular and Materials Chemistry, Materials Engineering, Interdisciplinary Engineering
Abstract

Charge transport materials (CTMs) are traditionally inorganic semiconductors or metals. However, over the past few decades, new classes of solution-processable CTMs have evolved alongside new concepts for fabricating electronic devices at low cost and with exceptional properties. The vast majority of these novel materials are organic compounds and the use of transition metal complexes in electronic applications remains largely unexplored. Here, a solution-processable solid-state charge transport material composed of a blend of [Co(bpyPY4)](OTf)2 and Co(bpyPY4)](OTf)3 where bpyPY4 is the hexadentate ligand 6,6′-bis(1,1-di(pyridin-2-yl)ethyl)-2,2′-bipyridine and OTf− is the trifluoromethanesulfonate anion is reported. Surprisingly, these films exhibit a negative temperature coefficient of conductivity (dσ/dT) and non-Arrhenius behavior, with respectable solid-state conductivities of 3.0 S m−1 at room temperature and 7.4 S m−1 at 4.5 K. When employed as a CTM in a solid-state dye-sensitized solar cell, these largely amorphous, transparent films afford impressive solar energy conversion efficiencies of up to 5.7%. Organic–inorganic hybrid materials with negative temperature coefficients of conductivity generally feature extended flat π-systems with strong π–π interactions or high crystallinity. The lack of these features promotes [Co(bpyPY4)](OTf)2+x films as a new class of CTMs with a unique charge transport mechanism that remains to be explored.

Published
2016

17. Sub-micron Polymer-Zeolitic Imidazolate Framework Layered Hybrids via Controlled Chemical Transformation of Naked ZnO Nanocrystal Films

Author

Meckler, SM, Li, C, Queen, WL, Williams, TE, Long, JR, Buonsanti, R, Milliron, DJ, and Helms, BA

Subjects
Materials, Chemical Sciences, Engineering
Abstract

Here we show that sub-micron coatings of zeolitic imidazolate frameworks (ZIFs) and even ZIF-ZIF bilayers can be grown directly on polymers of intrinsic microporosity from zinc oxide (ZnO) nanocrystal precursor films, yielding a new class of all-microporous layered hybrids. The ZnO-to-ZIF chemical transformation proceeded in less than 30 min under microwave conditions using a solution of the imidazole ligand in N,N-dimethylformamide (DMF), water, or mixtures thereof. By varying the ratio of DMF to water, it was possible to control the morphology of the ZIF-on-polymer from isolated crystallites to continuous films. Grazing incidence X-ray diffraction was used to confirm the presence of crystalline ZIF in the thin films, and X-ray absorption spectroscopy was used to quantify film purity, revealing films with little to no residual ZnO. The role solvent plays in the transformation mechanism is discussed in light of these findings, which suggest the ZnO nanocrystals may be necessary to localize heterogeneous nucleation of the ZIF to the polymer surface.

Published
2015

18. Counteranion effects on the catalytic activity of copper salts immobilized on the 2,2′-bipyridine-functionalized metal-organic framework MOF-253

Author

Valvekens, P, Bloch, ED, Long, JR, Ameloot, R, and De Vos, DE

Subjects
Metal organic framework, alpha-Pinene oxide rearrangement, MOF-253, Copper salt immobilization, Counteranion, EPR, Physical Chemistry, Chemical Sciences, Engineering
Abstract

The charge-neutral, aluminium-based metal-organic framework containing accessible 2,2′-bipyridine (bpy) sites, MOF-253, is a suitable host material for the immobilization of various copper catalysts. The catalytic performance of CuCl2, Cu(NO3)2, Cu(BF4)2 and Cu(CF3SO3)2 before and after coordination to the bpy ligands in MOF-253 was studied in the Meinwald rearrangement of α-pinene oxide to campholenic aldehyde (CA). The coordination environment of Cu2+ in MOF-253 was further studied via EPR spectroscopy. Although the catalytic activity of the copper salts decreased upon heterogenization through coordination with the bpy linker, the selectivity to campholenic aldehyde markedly increased. Furthermore, the catalytic performance of the MOF loaded with copper salts was shown to vary greatly with the choice of charge compensating anion, allowing for improvement of the heterogeneous catalyst.

Published
2015

19. NMR relaxation and exchange in metal-organic frameworks for surface area screening

Author

Chen, JJ, Mason, JA, Bloch, ED, Gygi, D, Long, JR, and Reimer, JA

Subjects
Metal-organic frameworks, NMR relaxometry, Exchange, High-throughput screening, Materials, Chemical Sciences, Engineering
Abstract

We describe a robust screening technique that correlates the surface area of metal-organic frameworks to the proton T2 relaxation behavior of imbibed solvent at low field (13 MHz). In frameworks with small pore sizes (1 nm) lead to corresponding increases in the rate of solvent exchange, as confirmed by T2 relaxation exchange (REXSY) experiments; increases in the pore size also increases the T2 of the pore-confined solvent. The combination of these two effects results in comparable rates of relaxation and exchange, which precludes the direct analysis of Laplace inversions. Thus, two- and three-site kinetics models were applied to extract porosity from relaxation decays, thereby improving the utility of the porosity screening tool.

Published
2015

20. Radical ligand-containing single-molecule magnets

Author

Demir, S, Jeon, IR, Long, JR, and Harris, TD

Subjects
Single-molecule magnets, Exchange coupling, Radical ligands, Redox-active ligands, Zero-field splitting, Biomedical Imaging, General Chemistry, Inorganic Chemistry, Other Chemical Sciences, Physical Chemistry, Physical Chemistry (incl. Structural)
Abstract

Single-molecule magnets represent the ultimate size limit for spin-based information storage and processing; however, such applications require large spin relaxation barriers and blocking temperatures. Ongoing efforts to synthesize single-molecule magnets with higher barriers must take into consideration key physical parameters, such as spin ground state, S, and axial zero-field splitting parameter, D, which are both correlated to the barrier height. A third critical parameter that has received less attention is the exchange coupling constant, J. This constant determines the degree of separation between spin ground state and excited states, which must be sufficiently large in a single-molecule magnet to maintain slow magnetization dynamics at elevated temperatures, and also serves to shut down fast quantum relaxation pathways. Toward this end, one synthetic strategy to engender strong magnetic exchange is the incorporation of radical ligands into metal complexes. Within these complexes, the presence of direct exchange between paramagnetic ligand and metal units can result in exceptionally strong magnetic coupling, much stronger in fact than more common superexchange interactions. This review article provides a survey of radical ligand-containing single-molecule magnets, with a brief overview of other classes of metal-ligand radical complexes that could be exploited in the design of new single-molecule magnets. Furthermore, ligand-field and electronic structure considerations in dictating exchange strength and slow magnetic relaxation are highlighted, with the aim of helping to guide the synthesis of future radical ligand-containing single-molecule magnets with even stronger exchange coupling.

Published
2015

21. GUARDING AGAINST HUMAN TRAFFICKING IN DOD CONTRACTING.

Author

DIXON, LINDA, LIVINGSTON, DONNA, LONG JR., WILLIAM E., and YODER, E. CORY

Subjects
SEX trafficking, DISCHARGE of contracts, HUMAN trafficking, CHILD soldiers, INSPECTORS general, DEFENSE procurement
Abstract

The article discusses the issue of human trafficking in defense contracting and emphasizes the importance of preventing and addressing this crime. It highlights that human trafficking is a global problem, with millions of people affected and billions of dollars generated in illicit profits. The Department of Defense (DoD) has a zero-tolerance policy for trafficking in persons and works to prevent and detect incidents of trafficking. The article provides an overview of the statutory, policy, and program framework in place to combat trafficking, including the role of the Combating Trafficking in Persons Program Management Office (CTIP PMO). It also outlines the responsibilities of acquisition professionals, such as contracting officers and Contracting Officer Representatives (CORs), in preventing trafficking and reporting violations. The article concludes by emphasizing the need for more action and awareness within the defense acquisition community to address weaknesses in oversight and ensure compliance with CTIP responsibilities. The authors recommend measures such as ensuring training for DoD personnel, embedding training in educational curricula, ensuring complete documentation, including CTIP requirements in Joint Doctrine, and updating regulations to include CTIP. The article also mentions a Naval Post Graduate School research project that provides recommendations on addressing human trafficking in contracts. The authors emphasize that human trafficking has no place in society and that the U.S. Government and its acquisition workforce have a responsibility to prevent taxpayer dollars from contributing to this crime. The article concludes with additional information on CTIP and potential indicators of human trafficking. [Extracted from the article]

Published
2024

23. Selective propene oligomerization with nickel(II)-based metal-organic frameworks

Author

Mlinar, AN, Keitz, BK, Gygi, D, Bloch, ED, Long, JR, and Bell, AT

Subjects
metal-organic frameworks, catalysis, oligomerization, propene, nickel, Inorganic Chemistry, Organic Chemistry, Chemical Engineering
Abstract

Two Ni2+-containing metal-organic frameworks, Ni 2(dobdc) and Ni2(dobpdc), are shown to be active for the oligomerization of propene in the gas phase. The metal-organic frameworks exhibit activity comparable to Ni2+-exchanged aluminosilicates but maintain high selectivity for linear oligomers. Thus, these frameworks should enable the high yielding synthesis of linear propene oligomers for use in detergent and diesel fuel applications. © 2014 American Chemical Society.

Published
2014

24. Towards a comprehensive understanding of visible-light photogeneration of hydrogen from water using cobalt( ii ) polypyridyl catalysts

Author

Khnayzer, RS, Thoi, VS, Nippe, M, King, AE, Jurss, JW, Roz, KA El, Long, JR, Chang, CJ, and Castellano, FN

Subjects
Affordable and Clean Energy, Energy
Abstract

Homogeneous aqueous solutions of photocatalytic ensembles, consisting of [Ru(bpy)3]2+ as a photosensitizer, ascorbic acid/ascorbate as the electron source, and 10 distinct Co2+-based molecular catalysts, were evaluated for visible-light induced hydrogen evolution using high-throughput screening. The combined results demonstrate that Co2+ complexes bearing tetradentate ligands yield more active photocatalytic compositions than their congeners with pentadentate ligands while operating with high catalyst stability. Additionally, molecular Co2+ catalysts with cis open coordination sites appear to be significantly more active for hydrogen evolution than those with trans open sites. As evidenced by mass spectrometric analysis of the reactor headspace and associated deuteration experiments, the H2 gas generated in all instances was derived from aqueous protons. One of the most promising cis-disposed Co2+ species, [Co(bpyPY2Me)(CH3CN)(CF3SO3)](CF 3SO3) (1), engages in highly efficient hydrogen evolving photocatalysis, achieving a turnover number of 4200 (H2/Co) and a turnover frequency of 3200 (H2/Co per h) at pH 4 under simulated sunlight (AM 1.5G, 100 mW cm-2) at room temperature. At equimolar concentrations of photosensitizer and 1, the total hydrogen produced appears to be exclusively limited by the photostability of [Ru(bpy)3] 2+, which was observed to decompose into an Ru(bpy) 2-ascorbate adduct, as evidenced by HPLC and ESI-MS experiments. Lowering the operating temperature from 27 to 5 °C significantly attenuates bpy dissociation from the sensitizer, resulting in a net ∼two-fold increase in hydrogen production from this composition. The primary electron transfer steps of this photocatalytic ensemble were investigated by nanosecond transient absorption spectroscopy. Photoexcited [Ru(bpy)3]2+ undergoes reductive quenching by ascorbic acid/ascorbate (kq = 2.6 × 107 M-1 s-1), releasing [Ru(bpy) 3]+ from the encounter solvent cage with an efficiency of 55 ± 5%. In the presence of catalyst 1, [Ru(bpy)3]+ generated in the initial flash-quench experiment transfers an electron (k et = 2 × 109 M-1 s-1) at an efficiency of 85 ± 10% to the catalyst, which is believed to enter the hydrogen evolution cycle subsequently. Using a combinatorial approach, all ten Co2+ catalysts were evaluated for their potential to operate under neutral pH 7.0 conditions. Catalyst 7, [Co(PY4MeH2)(CH 3CN)(CF3SO3)](CF3SO3), was revealed to be most promising, as its performance metrics were only marginally affected by pH and turnover numbers greater than 1000 were easily obtained in photocatalytic hydrogen generation. These comprehensive findings provide guidelines for the development of molecular compositions capable of evolving hydrogen from purely aqueous media. This journal is © the Partner Organisations 2014.

Published
2014

25. Towards a comprehensive understanding of visible-light photogeneration of hydrogen from water using cobalt(ii) polypyridyl catalysts

Author

Khnayzer, RS, Thoi, VS, Nippe, M, King, AE, Jurss, JW, El Roz, KA, Long, JR, Chang, CJ, and Castellano, FN

Subjects
Energy
Abstract

Homogeneous aqueous solutions of photocatalytic ensembles, consisting of [Ru(bpy)3]2+ as a photosensitizer, ascorbic acid/ascorbate as the electron source, and 10 distinct Co2+-based molecular catalysts, were evaluated for visible-light induced hydrogen evolution using high-throughput screening. The combined results demonstrate that Co2+ complexes bearing tetradentate ligands yield more active photocatalytic compositions than their congeners with pentadentate ligands while operating with high catalyst stability. Additionally, molecular Co2+ catalysts with cis open coordination sites appear to be significantly more active for hydrogen evolution than those with trans open sites. As evidenced by mass spectrometric analysis of the reactor headspace and associated deuteration experiments, the H2 gas generated in all instances was derived from aqueous protons. One of the most promising cis-disposed Co2+ species, [Co(bpyPY2Me)(CH3CN)(CF3SO3)](CF 3SO3) (1), engages in highly efficient hydrogen evolving photocatalysis, achieving a turnover number of 4200 (H2/Co) and a turnover frequency of 3200 (H2/Co per h) at pH 4 under simulated sunlight (AM 1.5G, 100 mW cm-2) at room temperature. At equimolar concentrations of photosensitizer and 1, the total hydrogen produced appears to be exclusively limited by the photostability of [Ru(bpy)3] 2+, which was observed to decompose into an Ru(bpy) 2-ascorbate adduct, as evidenced by HPLC and ESI-MS experiments. Lowering the operating temperature from 27 to 5 °C significantly attenuates bpy dissociation from the sensitizer, resulting in a net ∼two-fold increase in hydrogen production from this composition. The primary electron transfer steps of this photocatalytic ensemble were investigated by nanosecond transient absorption spectroscopy. Photoexcited [Ru(bpy)3]2+ undergoes reductive quenching by ascorbic acid/ascorbate (kq = 2.6 × 107 M-1 s-1), releasing [Ru(bpy) 3]+ from the encounter solvent cage with an efficiency of 55 ± 5%. In the presence of catalyst 1, [Ru(bpy)3]+ generated in the initial flash-quench experiment transfers an electron (k et = 2 × 109 M-1 s-1) at an efficiency of 85 ± 10% to the catalyst, which is believed to enter the hydrogen evolution cycle subsequently. Using a combinatorial approach, all ten Co2+ catalysts were evaluated for their potential to operate under neutral pH 7.0 conditions. Catalyst 7, [Co(PY4MeH2)(CH 3CN)(CF3SO3)](CF3SO3), was revealed to be most promising, as its performance metrics were only marginally affected by pH and turnover numbers greater than 1000 were easily obtained in photocatalytic hydrogen generation. These comprehensive findings provide guidelines for the development of molecular compositions capable of evolving hydrogen from purely aqueous media. This journal is © the Partner Organisations 2014.

Published
2014

26. Special Prey, Special Glue: NMR Spectroscopy on Aggregate Glue Components of Moth-Specialist Spiders, Cyrtarachninae.

Author

VanDyck, Max W., Long Jr., John H., Baker, Richard H., Hayashi, Cheryl Y., and Diaz Jr., Candido

Subjects
*SPIDER silk, *NUCLEAR magnetic resonance spectroscopy, *GLUE, *ORB weavers, *NUCLEAR magnetic resonance, *BIOMEDICAL adhesives, *SPIDERS
Abstract

Orb-weaver spiders produce upwards of seven different types of silk, each with unique material properties. We focus on the adhesive within orb-weaving spider webs, aggregate glue silk. These droplets are composed of three main components: water, glycoproteins, and a wide range of low molecular mass compounds (LMMCs). These LMMCs are known to play a crucial role in maintaining the material properties of the glycoproteins, aid in water absorption from the environment, and increase surface adhesion. Orb-weavers within the Cyrtarachninae subfamily are moth specialists and have evolved glue droplets with novel material properties. This study investigated the biochemical composition and diversity of the LMMCs present in the aggregate glue of eight moth-specialist species and compared them with five generalist orb-weavers using nuclear magnetic resonance (NMR) spectroscopy. We hypothesized that the novel drying ability of moth-specialist glue was accompanied by novel LMMCs and lower overall percentages by silk weight of LMMCs. We measured no difference in LMMC weight by the type of prey specialization, but observed novel compositions in the glue of all eight moth-catching species. Further, we quantified the presence of a previously reported but unidentified compound that appears in the glue of all moth specialists. These silks can provide insight into the functions of bioadhesives and inform our own synthetic adhesives. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Emergency Actions for the Documentation, Stabilization, and Consolidation of the Early Bronze Age Fortifications at Khirbat Iskandar, Jordan.

Author

D'Andrea, Marta, Richard, Suzanne, Long Jr., Jesse C., and Sciorilli, Franco

Subjects
BRONZE Age, PRESERVATION of antiquities, HISTORIC sites, CULTURAL property, DOCUMENTATION, ARCHAEOLOGICAL excavations, STONE implements
Abstract

Khirbat Iskandar is an Early Bronze Age (ca. 3800-1950 BCE) mound in the Madaba Governorate of Jordan. Until a decade ago, it was better known as a key site for the non-urban Early Bronze IV period (ca. 2500-1950 BCE), but is increasingly emerging as a signature site for the urban Early Bronze II-III period (ca. 3050-2500 BCE). The contour of the tall site is shaped by the presence of buried fortifications that were investigated in the north-western sector of the mound, where a long sequence of rebuilds was recognized, but were exposed to and impacted by modern construction activities along the southern and south-eastern areas prior to being recorded. There, due to erosion and weathering, the stone fortifications dating to the first half of the Early Bronze III (ca. 2850-2650 BCE) fell down. In this paper, we report on our strategies to assess threats, document damages, sustainably stabilize, and consolidate the collapsed ancient fortifications in the 2023 field season at Khirbat Iskandar. At the same time, we discuss the conceptual/methodological and practical challenges of identifying best practices in the conservation and preservation of antiquities that collapsed prior to being excavated. We conclude with some thoughts on how to build on these actions to efficiently present the archaeology and cultural heritage at protohistoric sites, like Khirbat Iskandar, and to make it accessible for the local and the international communities. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Catalytic proton reduction with transition metal complexes of the redox-active ligand bpy2PYMe

Author

Nippe, M, Khnayzer, RS, Panetier, JA, Zee, DZ, Olaiya, BS, Head-Gordon, M, Chang, CJ, Castellano, FN, and Long, JR

Subjects
Chemical Sciences
Abstract

A new pentadentate, redox-active ligand bpy2PYMe has been synthesized and its corresponding transition metal complexes of Fe2+ (1), Co 2+ (2), Ni2+ (3), Cu2+ (4), and Zn2+ (5) have been investigated for electro- and photo-catalytic proton reduction in acetonitrile and water, respectively. Under weak acid conditions, the Co complex displays catalytic onset at potentials similar to those of the ligand centered reductions in the absence of acid. Related Co complexes devoid of ligand redox activity catalyze H2 evolution under similar conditions at significantly higher overpotentials, showcasing the beneficial effect of combining ligand-centered redox activity with a redox-active Co center. Furthermore, turnover numbers as high as 1630 could be obtained under aqueous photocatalytic conditions using [Ru(bpy)3]2+ as a photosensitizer. Under those conditions catalytic hydrogen production was solely limited by photosensitizer stability. Introduction of an electron withdrawing CF3 group into the pyridine moiety of the ligand as in bpy2PYMe-CF3 renders its corresponding Co complex 6 less active for proton reduction in electro- and photocatalytic experiments. This surprising effect of ligand substitution was investigated by means of density functional theory calculations which suggest the importance of electronic communication between Co1+ and the redox-active ligand. Taken together, the results provide a path forward in the design of robust molecular catalysts in aqueous media with minimized overpotential by exploiting the synergy between redox-active metal and ligand components. © 2013 The Royal Society of Chemistry.

Published
2013

34. High-throughput screening of hypothetical metal-organic frameworks for thermal conductivity

Author

Islamov, M, Islamov, M, Babaei, H, Anderson, R, Sezginel, KB, Long, JR, McGaughey, AJH, Gomez-Gualdron, DA, Wilmer, CE, Islamov, M, Islamov, M, Babaei, H, Anderson, R, Sezginel, KB, Long, JR, McGaughey, AJH, Gomez-Gualdron, DA, and Wilmer, CE

Abstract

Thermal energy management in metal-organic frameworks (MOFs) is an important, yet often neglected, challenge for many adsorption-based applications such as gas storage and separations. Despite its importance, there is insufficient understanding of the structure-property relationships governing thermal transport in MOFs. To provide a data-driven perspective into these relationships, here we perform large-scale computational screening of thermal conductivity k in MOFs, leveraging classical molecular dynamics simulations and 10,194 hypothetical MOFs created using the ToBaCCo 3.0 code. We found that high thermal conductivity in MOFs is favored by high densities (> 1.0 g cm−3), small pores (< 10 Å), and four-connected metal nodes. We also found that 36 MOFs exhibit ultra-low thermal conductivity (< 0.02 W m−1 K−1), which is primarily due to having extremely large pores (~65 Å). Furthermore, we discovered six hypothetical MOFs with very high thermal conductivity (> 10 W m−1 K−1), the structures of which we describe in additional detail.

Published
2023

38. BATTLEFIELD PREP WITH VENDOR THREAT MITIGATION.

Author

LIVINGSTON, DONNA M., LONG JR., MAJ. WILLIAM E., and YODER, CMDR. E. CORY

Subjects
THIRD-party logistics, APPLICABLE laws
Abstract

The article discusses the Department of Defense's efforts to address threats from vendors supporting overseas operations. The Vendor Threat Mitigation (VTM) program is being developed to identify and prevent "bad actors" from receiving contracts or accessing military operations abroad. The program utilizes all-source information and guidance from Combatant Commanders to identify vendors supporting U.S. adversaries. The DoD is working on policies and guidelines to address risks from contracted support, and training initiatives are being developed to ensure well-trained personnel are available for VTM tasks. The VTM program is seen as crucial in minimizing threats and ensuring the security of the global supply chain in today's great power competition. [Extracted from the article]

Published
2024

40. Embodiment Effects in Evolutionary Robotics.

Author

Nicholas Livingston, Anton Bernatskiy, Kenneth R. Livingston, Marc L. Smith, Jodi Schwarz, Joshua Clifford Bongard, David Wallach, Evan Altiero, and John H. Long Jr.

Published
2016

46. Cost and potential of metal–organic frameworks for hydrogen back-up power supply

Author

Peng, P, Peng, P, Anastasopoulou, A, Brooks, K, Furukawa, H, Bowden, ME, Long, JR, Autrey, T, Breunig, H, Peng, P, Peng, P, Anastasopoulou, A, Brooks, K, Furukawa, H, Bowden, ME, Long, JR, Autrey, T, and Breunig, H

Abstract

Hydrogen offers a route to storing renewable electricity and lowering greenhouse gas emissions. Metal–organic framework (MOF) adsorbents are promising candidates for hydrogen storage, but a deep understanding of their potential for large-scale, stationary back-up power applications has been lacking. Here we utilize techno-economic analysis and process modelling, which leverage molecular simulation and experimental results, to evaluate the future opportunities of MOF-stored hydrogen for back-up power applications and set critical targets for future material development. We show that with carefully designed charging–discharging patterns, MOFs coupled with electrolysers and fuel cells are economically comparable with contemporary incumbent energy-storage technologies in back-up power applications. Future research should target developing MOFs with 15 g kg−1 of recoverable hydrogen adsorbed (excess uptake) and could be manufactured for under US$10 kg−1 to make the on-site storage system a leading option for back-up power applications.

Published
2022

48. Early Secondary Alveolar Bone Grafting and Facial Growth of Patients with Complete Unilateral Cleft Lip and Palate.

Author

Doucet, Jean-Charles, Russell, Kathleen A., Daskalogiannakis, John, Mercado, Ana M., Hathaway, Ronald R., Semb, Gunvor, Shaw, William C., and Long Jr, Ross E.

Subjects
CRANIAL radiography, HEALTH facilities, ANALYSIS of variance, HEALTH outcome assessment, CLEFT palate, ALVEOLAR process, RETROSPECTIVE studies, MAXILLA, CLEFT lip, NEURAL development, T-test (Statistics), ORAL surgery, EARLY intervention (Education), CEPHALOMETRY, DESCRIPTIVE statistics, RESEARCH funding, FACIAL bone growth, LONGITUDINAL method
Abstract

Objective: To investigate the craniofacial growth outcomes of early secondary alveolar bone grafting(ABG) around 6 years of age. Design: Retrospective cohort study Setting: 1 North-American and 5 Northern-European cleft centers. Subjects: 33 subjects with CUCLP consecutively treated with secondary ABG around 6 years of age were compared to 105 subjects from 4 centers treated with late secondary ABG and 19 subjects from 1 center with primary ABG. Methods: Preorthodontic standardized lateral cephalometric radiographs taken after 12 years of age were traced and analyzed according to the Eurocleft Study protocol. Fourteen angular and two proportional measurements were performed. Measurement means from the Study Center(SC) were compared to 5 Northern-European centers using analysis of variance and Welch's modified t -tests, and P <.05 was considered statistically significant. Results: For the SC, the mean age ± SD at the time of bone graft was 5.85 ± 0.71 years and the mean age at the time of the lateral cephalogram was 13.4 ± 1.8 years. The sagittal maxillary prominence of the SC was favorably comparable to the 5 Northern-European centers. The mean SNA (78.1 ± 4.3) for the SC was significantly higher compared to 4 of the 5 Northern-European centers(all P <.05), and the mean ANB angle was comparable to 4 of the 5 centers. Similarly, the mean soft tissue ANB angle was not significantly different to the 5 centers. The soft tissue vertical proportions compared favorably to all 5 Northern-European centers(all P <.01). Conclusions: Craniofacial growth outcomes of early secondary ABG around 6 years compare favorably to the outcomes of late secondary ABG. [ABSTRACT FROM AUTHOR]

Published
2023
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