Jason Dyer scite author profile

Neutral silver clusters, Ag(n), were studied using density functional theory (DFT) followed by high level coupled cluster CCSD(T) calculations to determine the low energy isomers for each cluster size for small clusters. The normalized atomization energy, heats of formation, and average bond lengths were calculated for each of the different isomeric forms of the silver clusters. For n = 2-6, the preferred geometry is planar, and the larger n = 7-8 clusters prefer higher symmetry, three-dimensional geometries. The low spin state is predicted to be the ground state for every cluster size. A number of new low energy isomers for the heptamer and octamer were found. Additional larger Ag(n) structures, n < 100, were initially optimized using a tree growth-hybrid genetic algorithm with an embedded atom method (EAM) potential. For n ≤ 20, DFT was used to optimize the geometries. DFT with benchmarked functionals were used to predict that the normalized atomization energies ((AE)s) for Ag(n) start to converge slowly to the bulk at n = 55. The (AE) for Ag99 is predicted to be ~50 kcal/mol.

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Structures and Stability of Ir_n(CO)_m

Chen¹,

Dyer²,

Gates³

et al. 2012

Molecular Physics

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Similar acute physiological responses from effort and duration matched leg press and recumbent cycling tasks

Steele

Butler

Comerford

et al. 2018

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The present study examined the effects of exercise utilising traditional resistance training (leg press) or ‘cardio’ exercise (recumbent cycle ergometry) modalities upon acute physiological responses. Nine healthy males underwent a within session randomised crossover design where they completed both the leg press and recumbent cycle ergometer conditions. Conditions were approximately matched for effort and duration (leg press: 4 × 12RM using a 2 s concentric and 3 s eccentric repetition duration controlled with a metronome, thus each set lasted 60 s; recumbent cycle ergometer: 4 × 60 s bouts using a resistance level permitting 80–100 rpm but culminating with being unable to sustain the minimum cadence for the final 5–10 s). Measurements included VO2, respiratory exchange ratio (RER), blood lactate, energy expenditure, muscle swelling, and electromyography. Perceived effort was similar between conditions and thus both were well matched with respect to effort. There were no significant effects by ‘condition’ in any of the physiological responses examined (all p > 0.05). The present study shows that, when both effort and duration are matched, resistance training (leg press) and ‘cardio’ exercise (recumbent cycle ergometry) may produce largely similar responses in VO2, RER, blood lactate, energy expenditure, muscle swelling, and electromyography. It therefore seems reasonable to suggest that both may offer a similar stimulus to produce chronic physiological adaptations in outcomes such as cardiorespiratory fitness, strength, and hypertrophy. Future work should look to both replicate the study conducted here with respect to the same, and additional physiological measures, and rigorously test the comparative efficacy of effort and duration matched exercise of differing modalities with respect to chronic improvements in physiological fitness.

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A Zeolite‐Supported Molecular Ruthenium Complex with η⁶‐C₆H₆ Ligands: Chemistry Elucidated by Using Spectroscopy and Density Functional Theory

Ogino

Chen

Dyer

et al. 2010

Chemistry A European J

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An essentially molecular ruthenium-benzene complex anchored at the aluminum sites of dealuminated zeolite Y was formed by treating a zeolite-supported mononuclear ruthenium complex, [Ru(acac)(eta(2)-C(2)H(4))(2)](+) (acac=acetylacetonate, C(5)H(7)O(2)(-)), with (13)C(6)H(6) at 413 K. IR, (13)C NMR, and extended X-ray absorption fine structure (EXAFS) spectra of the sample reveal the replacement of two ethene ligands and one acac ligand in the original complex with one (13)C(6)H(6) ligand and the formation of adsorbed protonated acac (Hacac). The EXAFS results indicate that the supported [Ru(eta(6)-C(6)H(6))](2+) incorporates an oxygen atom of the support to balance the charge, being bonded to the zeolite through three Ru-O bonds. The supported ruthenium-benzene complex is analogous to complexes with polyoxometalate ligands, consistent with the high structural uniformity of the zeolite-supported species, which led to good agreement between the spectra and calculations at the density functional theory level. The calculations show that the interaction of the zeolite with the Hacac formed on treatment of the original complex with (13)C(6)H(6) drives the reaction to form the ruthenium-benzene complex.

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Similar acute physiological responses from effort and duration matched leg press and recumbent cycling tasks

Steele¹,

Butler²,

Comerford³

et al. 2018

Preprint

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Jason Dyer

Prediction of Structures and Atomization Energies of Small Silver Clusters, (Ag)_n, n < 100

Structures and Stability of Ir_n(CO)_m

Similar acute physiological responses from effort and duration matched leg press and recumbent cycling tasks

A Zeolite‐Supported Molecular Ruthenium Complex with η⁶‐C₆H₆ Ligands: Chemistry Elucidated by Using Spectroscopy and Density Functional Theory

Similar acute physiological responses from effort and duration matched leg press and recumbent cycling tasks

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About

Jason Dyer

Prediction of Structures and Atomization Energies of Small Silver Clusters, (Ag)n, n < 100

Structures and Stability of Irn(CO)m

Similar acute physiological responses from effort and duration matched leg press and recumbent cycling tasks

A Zeolite‐Supported Molecular Ruthenium Complex with η6‐C6H6 Ligands: Chemistry Elucidated by Using Spectroscopy and Density Functional Theory

Similar acute physiological responses from effort and duration matched leg press and recumbent cycling tasks

Contact Info

Product

Resources

About

Prediction of Structures and Atomization Energies of Small Silver Clusters, (Ag)_n, n < 100

Structures and Stability of Ir_n(CO)_m

A Zeolite‐Supported Molecular Ruthenium Complex with η⁶‐C₆H₆ Ligands: Chemistry Elucidated by Using Spectroscopy and Density Functional Theory