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1. Unravelling the interplay between steel rebar corrosion rate and corrosion-induced cracking of reinforced concrete

Author

Korec, E., Jirasek, M., Wong, H. S., and Martínez-Pañeda, E.

Subjects
Computer Science - Computational Engineering, Finance, and Science, Physics - Chemical Physics
Abstract

Accelerated impressed current testing is the most common experimental method for assessing the susceptibility to corrosion-induced cracking, the most prominent challenge to the durability of reinforced concrete structures. Although it is well known that accelerated impressed current tests lead to slower propagation of cracks (with respect to corrosion penetration) than in natural conditions, which results in overestimations of the delamination/spalling time, the origins of this phenomenon have puzzled researchers for more than a quarter of a century. In view of recent experimental findings, it is postulated that the phenomenon can be attributed to the variability of rust composition and density, specifically to the variable ratio of the mass fractions of iron oxide and iron hydroxide-oxide, which is affected by the magnitude of the applied corrosion current density. Based on this hypothesis, a corrosion-induced cracking model for virtual impressed-current testing is presented. The simulation results obtained with the proposed model are validated against experimental data, showing good agreement. Importantly, the model can predict corrosion-induced cracking under natural conditions and thus allows for the calculation of a newly proposed crack width slope correction factor, which extrapolates the surface crack width measured during accelerated impressed current tests to corrosion in natural conditions.

Published
2024

2. Phase-field chemo-mechanical modelling of corrosion-induced cracking in reinforced concrete subjected to non-uniform chloride-induced corrosion

Author

Korec, E., Jirasek, M., Wong, H. S., and Martínez-Pañeda, E.

Subjects
Computer Science - Computational Engineering, Finance, and Science, Mathematics - Numerical Analysis, Physics - Applied Physics
Abstract

A model for corrosion-induced cracking of reinforced concrete subjected to non-uniform chloride-induced corrosion is presented. The gradual corrosion initiation of the steel surface is investigated by simulating chloride transport considering binding. The transport of iron from the steel surface, its subsequent precipitation into rust, and the associated precipitation-induced pressure are explicitly modelled. Model results, obtained through finite element simulations, agree very well with experimental data, showing significantly improved accuracy over uniform corrosion modelling. The results obtained from case studies reveal that crack-facilitated transport of chlorides cannot be neglected, that the size of the anodic region must be considered, and that precipitate accumulation in pores can take years.

Published
2023

3. A phase-field chemo-mechanical model for corrosion-induced cracking in reinforced concrete

Author

Korec, E., Jirasek, M., Wong, H. S., and Martínez-Pañeda, E.

Subjects
Computer Science - Computational Engineering, Finance, and Science, Condensed Matter - Other Condensed Matter, Physics - Applied Physics, Physics - Chemical Physics
Abstract

We present a new mechanistic framework for corrosion-induced cracking in reinforced concrete that resolves the underlying chemo-mechanical processes. The framework combines, for the first time, (i) a model for reactive transport and precipitation of dissolved Fe2+ and Fe3+ ions in the concrete pore space, (ii) a precipitation eigenstrain model for the pressure caused by the accumulation of precipitates (rusts) under pore confinement conditions, (iii) a phase-field model calibrated for the quasi-brittle fracture behaviour of concrete, and (iv) a damage-dependent diffusivity tensor. Finite element model predictions show good agreement with experimental data from impressed current tests under natural-like corrosion current densities.

Published
2023

4. Localization Study of a Non-Local Energetic Damage Model

Author

Jirasek, M. and Zeman, J.

Subjects
Condensed Matter - Materials Science
Abstract

The contribution presents an analysis of a rate-independent non-local damage model, recently proposed by (Mielke and Roubicek, 2006). An analytical as well as numerical solution of a simple one-dimensional bifurcation problem is performed, demonstrating that, for the elementary localization test, the model is free of pathological features., Comment: This paper has been withdrawn by the authors due incorrect form of the local-displacement diagram shown in Figure 3(b); the correct solution always exhibits snapback at the structural level. The corrected and significantly expanded version of the manuscript is available at arXiv:1412.5539. The authors would like to apologize for any inconvenience caused

Published
2008

8. Modeling of localized damage and fracture in quasibrittle materials

Author

Jirásek, M., Beig, R., editor, Ehlers, J., editor, Frisch, U., editor, Hepp, K., editor, Hillebrandt, W., editor, Imboden, D., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Lipowsky, R., editor, v. Löhneysen, H., editor, Ojima, I., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Vermeer, Pieter A., editor, Herrmann, Hans J., editor, Luding, Stefan, editor, Ehlers, Wolfgang, editor, Diebels, Stefan, editor, and Ramm, Ekkehard, editor

Published
2001
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9. A Peierls Transition in Long Polymethine Molecular Wires: Evolution of Molecular Geometry and Single-Molecule Conductance

Author

Xu W., Leary, Edmund, Sangtarash S., Jirasek M., González, Teresa, Christensen K.E., Abellán Vicente L., Agraït, Nicolás, Higgins S.J., Nichols R.J., Lambert C.J., Anderson H.L., Xu W., Leary, Edmund, Sangtarash S., Jirasek M., González, Teresa, Christensen K.E., Abellán Vicente L., Agraït, Nicolás, Higgins S.J., Nichols R.J., Lambert C.J., and Anderson H.L.

Published
2021

10. Exploring electronic delocalization in porphyrin oligomers

Author

Jirasek, M and Anderson, H

Subjects
Physical organic chemistry
Abstract

The general theme of this thesis is a study of electronic communication within porphyrin oligomers. Chapter 1 reviews briefly the porphyrins: their chemical structure, advantages of their use in supramolecular chemistry and some of their basic photo-physical properties. Chapter 2 discusses a study of the origin of an unusual intensity of certain IR bands in two porphyrin oligomer cations. The study uses a polarised time-resolved IR (TR-IR) to understand relative orientation of the intensified vibrations, corroborated with DFT calculations. Coupling between individual IR modes and with the electronic band is documented by 2D-IR spectroscopy and further understanding of the system dynamics upon excitation is understood thanks to the detail kinetic analysis. Chapter 3 focuses on aromaticity. The basis of aromaticity as a concept is reviewed and examples of theoretical and experimental investigations of aromaticity of some π-conjugated species is presented. The experimental part discusses the preparation of large globally (anti)aromatic species via oxidation of the otherwise globally non-aromatic nanorings and its evaluation with NMR. All these studies are supported with DFT calculations corroborating the correct interpretation. Chapter 4 discuses the design and synthesis of a large Möbius-strip-shaped porphyrin nanoring. Firstly, a brief overview of the concept of Möbius aromaticity is reviewed, followed by examples of various designs and reported syntheses of Möbius molecules. This is followed by the design and synthesis and study of two novel nanorings, one which is suspected of adopting Möbius confirmation.

Published
2020

11. Global aromaticity at the nanoscale

Author

Rickhaus, M, Jirasek, M, Tejerina, L, Gotfredsen, H, Peeks, MD, Haver, R, Jiang, HW, Claridge, TDW, Anderson, HL, Rickhaus, M, Jirasek, M, Tejerina, L, Gotfredsen, H, Peeks, MD, Haver, R, Jiang, HW, Claridge, TDW, and Anderson, HL

Abstract

Aromaticity can be defined by the ability of a molecule to sustain a ring current when placed in a magnetic field. Hückel’s rule states that molecular rings with [4n + 2] π-electrons are aromatic, with an induced magnetization that opposes the external field inside the ring, whereas those with 4n π-electrons are antiaromatic, with the opposite magnetization. This rule reliably predicts the behaviour of small molecules, typically with fewer than 22 π-electrons (n = 5). It is not clear whether aromaticity has a size limit, or whether Hückel’s rule extends to much larger macrocycles. Here, we present evidence for global aromaticity in porphyrin nanorings with circuits of up to 162 π-electrons (n = 40); aromaticity is controlled by changing the constitution, oxidation state and conformation. Whenever a ring current is observed, its direction is correctly predicted by Hückel’s rule. The largest ring currents occur when the porphyrin units have fractional oxidation states.

Published
2020

12. Global Aromaticity and Antiaromaticity in Porphyrin Nanoring Anions

Author

Peeks, MD, Jirasek, M, Claridge, TDW, Anderson, HL, Peeks, MD, Jirasek, M, Claridge, TDW, and Anderson, HL

Abstract

Doping, through oxidation or reduction, is often used to modify the properties of π-conjugated oligomers. In most cases, the resulting charge distribution is difficult to determine. If the oligomer is cyclic and doping establishes global aromaticity or antiaromaticity, then it is certain that the charge is fully delocalized over the entire perimeter of the ring. Herein we show that reduction of a six-porphyrin nanoring using decamethylcobaltocene results in global aromaticity (in the 6− state; [90 π]) and antiaromaticity (in the 4− state; [88 π]), consistent with the Hückel rules. Aromaticity is assigned by NMR spectroscopy and density-functional theory calculations.

Published
2019

13. Nonlocal model based on crack interactions: a localization study

Author

Bazant, Z.P. and Jirasek, M.

Subjects
Fracture mechanics -- Models, Strains and stresses -- Analysis, Science and technology
Abstract

Incorporation of an integral that describes the directional dependence of crack interactions in the conventional nonlocal model improves the performance of the model. The new nonlocal model produces nonuniform strain profiles if the local constitutive law deviates from linearity. Old and new models exhibit different localization sensitivity and the bifurcation analysis proves the importance of renormalization of the averaging function near the boundary.

Published
1994

18. Creasing behavior of corrugated paper board

Author

Thakkar, B.K., Peerlings, R.H.J., Gooren, L.G.J., Geers, M.G.D., Jirasek, M, Bittnar, Z, Mang, H, Mechanics of Materials, Mechanical Engineering, and Group Geers

Abstract

This paper presents an experimental and numerical study on creasing behavior of corrugated paper boards. Experiments have been carried out on corrugated paper board and its constituent papers. Finite element simulations have been carried out on a plane-strain model, incorporating Hill’s plasticity criterion. The finite element simulations are found to be in good agreement with experimental observations up to initial buckling. The study presented here is intended to help in determining the optimum creasing depth to prevent cracking of paper boards during creasing and folding operations while manufacturing packaging boxes.

Published
2007

19. Nonlocal damage model based on displacement averaging

Author

Jirasek, M, Marfia, Sonia, M, Jirasek, and Marfia, S.

Subjects
Damage, non-local continuum, quasibrittle materials, Damage, localization, non-local continuum, quasibrittle materials, localization
Abstract

Continuum damage models describe the changes of material stiffness and strength, caused by the evolution of defects, in the framework of continuum mechanics. In many materials, a fast evolution of defects leads to stress–strain laws with softening, which creates serious mathematical and numerical problems. To regularize the model behaviour, various generalized continuum theories have been proposed. Integral-type non-local damage models are often based on weighted spatial averaging of a strain-like quantity. This paper explores an alternative formulation with averaging of the displacement field. Damage is assumed to be driven by the symmetric gradient of the non-local displacements. It is demonstrated that an exact equivalence between strain and displacement averaging can be achieved only in an unbounded medium. Around physical boundaries of the analysed body, both formulations differ and the non-local displacement model generates spurious damage in the boundary layers. The paper shows that this undesirable effect can be suppressed by an appropriate adjustment of the non-local weight function. Alternatively, an implicit gradient formulation could be used. Issues of algorithmic implementation, computational efficiency and smoothness of the resolved stress fields are discussed.

Published
2005

20. RILEM TC QFS Quasibrittle fracture scaling and size effect- Final report

Author

Bazant, Z. P., Gettu, R., Jirasek, M., Barr, B. I. G., Carol, I., Carpinteri, A., Elices, M., Huet, C., Mihashi, H., Nemati, K. M., Planas, J., Ulm, F. -J., Van Mier, J. G. M., Van Vliet, M. R. A., Burtscher, S., Chiaia, B., Dempsey, J. P., Ferro, G., Gopalaratnam, V. S., Prat, P., Rokugo, K., Saouma, V. E., Slowik, V., Vitek, L., and Willam, K.

Subjects
Ramifications, Plasticity, Linear elastic fracture mechanics (LEFM), Computer simulation, Engineering controlled terms: Ceramic materials, Elasticity, Tensile strength, Quasicrystals, Stress concentration, Weibull distribution, Engineering uncontrolled terms: Fracture process zone (FPZ), Weibull theory, Engineering main heading: Fracture mechanics
Published
2004

35. Geometrically nonlinear beam finite elements for modelling the mixed-mode rate-dependent delamination in layered structures

Author

Škec, Leo, Alfano, Giulio, Jelenić, Gordan, Moes, N., Oliver, X., Jirasek, M., and O. Allix

Subjects
delamination, multi-layer beam, rate-dependent, non-linear analysis
Abstract

In this work, building on the earlier work briefly reviewed above, a rate-dependent mixed- mode interface element is implemented within a multi-layer beam environment consisting of two- or three-nodded beam finite elements. The presented model is verified against experimental results for mode I delamination (DCB test) and computationally more expensive models which use plane-strain 2D finite elements with significantly higher number of degrees of freedom. Special attention is dedicated to the choice of optimum solution procedure for the non-linear problem and reducing the computation time.

Published
2017

36. Modelling of wood in the framework of microplane theory

Author

Ožbolt, Joško and Jirasek, M., Bittnar, Z. and Mang, H.

Subjects
Wood, fracture, microplane model, anisotropy, finite elements
Abstract

The paper describes modeling of initial anisotropy of wood in the framework of microplane theory. The performance of the proposed model is demonstrated on one numerical example. In the example a 3D finite element analysis of a wooden specimen loaded in tension is carried out at the meso scale. The results are compared with the test results and the comparison shows reasonably good agreement.

Published
2007

38. Investigating and Quantifying Molecular Complexity Using Assembly Theory and Spectroscopy.

Author

Jirasek M, Sharma A, Bame JR, Mehr SHM, Bell N, Marshall SM, Mathis C, MacLeod A, Cooper GJT, Swart M, Mollfulleda R, and Cronin L

Abstract

Current approaches to evaluate molecular complexity use algorithmic complexity, rooted in computer science, and thus are not experimentally measurable. Directly evaluating molecular complexity could be used to study directed vs undirected processes in the creation of molecules, with potential applications in drug discovery, the origin of life, and artificial life. Assembly theory has been developed to quantify the complexity of a molecule by finding the shortest path to construct the molecule from building blocks, revealing its molecular assembly index (MA). In this study, we present an approach to rapidly infer the MA of molecules from spectroscopic measurements. We demonstrate that the MA can be experimentally measured by using three independent techniques: nuclear magnetic resonance (NMR), tandem mass spectrometry (MS/MS), and infrared spectroscopy (IR). By identifying and analyzing the number of absorbances in IR spectra, carbon resonances in NMR, or molecular fragments in tandem MS, the MA of an unknown molecule can be reliably estimated. This represents the first experimentally quantifiable approach to determining molecular assembly. This paves the way to use experimental techniques to explore the evolution of complex molecules as well as a unique marker of where an evolutionary process has been operating., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published
2024
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39. Population and coherence dynamics in large conjugated porphyrin nanorings.

Author

Bressan G, Jirasek M, Roy P, Anderson HL, Meech SR, and Heisler IA

Abstract

In photosynthesis, nature exploits the distinctive electronic properties of chromophores arranged in supramolecular rings for efficient light harvesting. Among synthetic supramolecular cyclic structures, porphyrin nanorings have attracted considerable attention as they have a resemblance to naturally occurring light-harvesting structures but offer the ability to control ring size and the level of disorder. Here, broadband femtosecond transient absorption spectroscopy, with pump pulses in resonance with either the high or the low energy sides of the inhomogeneously broadened absorption spectrum, is used to study the population dynamics and ground and excited state vibrational coherence in large porphyrin nanorings. A series of fully conjugated, alkyne bridged, nanorings constituted of between ten and forty porphyrin units is studied. Pump-wavelength dependent fast spectral evolution is found. A fast rise or decay of the stimulated emission is found when large porphyrin nanorings are excited on, respectively, the high or low energy side of the absorption spectrum. Such dynamics are consistent with the hypothesis of a variation in transition dipole moment across the inhomogeneously broadened ground state ensemble. The observed dynamics indicate the interplay of nanoring conformation and oscillator strength. Oscillatory dynamics on the sub-ps time domain are observed in both pumping conditions. A combined analysis of the excitation wavelength-dependent transient spectra along with the amplitude and phase evolution of the oscillations allows assignment to vibrational wavepackets evolving on either ground or excited states electronic potential energy surfaces. Even though porphyrin nanorings support highly delocalized electronic wavefunctions, with coherence length spanning tens of chromophores, the measured vibrational coherences remain localised on the monomers. The main contributions to the beatings are assigned to two vibrational modes localised on the porphyrin cores: a Zn-N stretching mode and a skeletal methinic/pyrrolic C-C stretching and in-plane bending mode., Competing Interests: The authors declare no competing financial interest., (This journal is © The Royal Society of Chemistry.)

Published
2022
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40. A Helquat-like Compound as a Potent Inhibitor of Flaviviral and Coronaviral Polymerases.

Author

Konkolova E, Krejčová K, Eyer L, Hodek J, Zgarbová M, Fořtová A, Jirasek M, Teply F, Reyes-Gutierrez PE, Růžek D, Weber J, and Boura E

Subjects
Humans, Pandemics, RNA-Dependent RNA Polymerase, SARS-CoV-2, COVID-19, Encephalitis Viruses, Tick-Borne
Abstract

Positive-sense single-stranded RNA (+RNA) viruses have proven to be important pathogens that are able to threaten and deeply damage modern societies, as illustrated by the ongoing COVID-19 pandemic. Therefore, compounds active against most or many +RNA viruses are urgently needed. Here, we present PR673, a helquat-like compound that is able to inhibit the replication of SARS-CoV-2 and tick-borne encephalitis virus in cell culture. Using in vitro polymerase assays, we demonstrate that PR673 inhibits RNA synthesis by viral RNA-dependent RNA polymerases (RdRps). Our results illustrate that the development of broad-spectrum non-nucleoside inhibitors of RdRps is feasible.

Published
2022
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41. A Peierls Transition in Long Polymethine Molecular Wires: Evolution of Molecular Geometry and Single-Molecule Conductance.

Author

Xu W, Leary E, Sangtarash S, Jirasek M, González MT, Christensen KE, Abellán Vicente L, Agraït N, Higgins SJ, Nichols RJ, Lambert CJ, and Anderson HL

Abstract

Molecules capable of mediating charge transport over several nanometers with minimal decay in conductance have fundamental and technological implications. Polymethine cyanine dyes are fascinating molecular wires because up to a critical length, they have no bond-length alternation (BLA) and their electronic structure resembles a one-dimensional free-electron gas. Beyond this threshold, they undergo a symmetry-breaking Peierls transition, which increases the HOMO-LUMO gap. We have investigated cationic cyanines with central polymethine chains of 5-13 carbon atoms ( Cy3 + -Cy11 + ). The absorption spectra and crystal structures show that symmetry breaking is sensitive to the polarity of the medium and the size of the counterion. X-ray crystallography reveals that Cy9·PF 6 and Cy11·B(C 6 F 5 ) 4 are Peierls distorted, with high BLA at one end of the π-system, away from the partially delocalized positive charge. This pattern of BLA distribution resembles that of solitons in polyacetylene. The single-molecule conductance is essentially independent of molecular length for the polymethine salts of Cy3 + -Cy11 + with the large B(C 6 F 5 ) 4 - counterion, but with the PF 6 - counterion, the conductance decreases for the longer molecules, Cy7 + -Cy11 + , because this smaller anion polarizes the π-system, inducing a symmetry-breaking transition. At higher bias (0.9 V), the conductance of the shorter chains, Cy3 + -Cy7 + , increases with length (negative attenuation factor, β = -1.6 nm -1 ), but the conductance still drops in Cy9 + and Cy11 + with the small polarizing PF 6 - counteranion.

Published
2021
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42. Allosteric Cooperativity and Template-Directed Synthesis with Stacked Ligands in Porphyrin Nanorings.

Author

Bols PS, Rickhaus M, Tejerina L, Gotfredsen H, Eriksen K, Jirasek M, and Anderson HL

Abstract

The link between allosteric cooperativity and template-directed synthesis has been investigated by studying complexes in which two oligopyridine ligands bind inside a zinc porphyrin nanoring in a stacked arrangement. The binding of a 6-porphyrin nanoring to two tridentate ligands (with s -triazine or benzene cores) occurs with high negative allosteric cooperativity (α ≈ 10 -3 -10 -4 ). Formation constants for 1:1 and 1:2 complexes were determined by UV-vis-NIR denaturation titration, using pyridine as a competing ligand, and cooperativity factors were confirmed by NMR spectroscopy. The rate constants for formation of the 1:1 and 1:2 complexes are approximately equal, and the negative cooperativity can be attributed to faster dissociation of the 1:2 complex. These tridentate ligands are not effective templates for directing the synthesis of the 6-porphyrin nanoring, in keeping with their negative cooperativity of binding. In contrast, the binding of a 12-porphyrin nanoring to two hexadentate ligands occurs with high positive allosteric cooperativity (α > 40), and the ligand is an effective Vernier template for directing the synthesis of the 12-porphyrin nanoring. This stacked Vernier template approach creates the product in an open circular conformation, which is advantageous for preparing macrocycles that do not easily adopt a figure-of-eight geometry.

Published
2020
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43. Global aromaticity at the nanoscale.

Author

Rickhaus M, Jirasek M, Tejerina L, Gotfredsen H, Peeks MD, Haver R, Jiang HW, Claridge TDW, and Anderson HL

Abstract

Aromaticity can be defined by the ability of a molecule to sustain a ring current when placed in a magnetic field. Hückel's rule states that molecular rings with [4n + 2] π-electrons are aromatic, with an induced magnetization that opposes the external field inside the ring, whereas those with 4n π-electrons are antiaromatic, with the opposite magnetization. This rule reliably predicts the behaviour of small molecules, typically with fewer than 22 π-electrons (n = 5). It is not clear whether aromaticity has a size limit, or whether Hückel's rule extends to much larger macrocycles. Here, we present evidence for global aromaticity in porphyrin nanorings with circuits of up to 162 π-electrons (n = 40); aromaticity is controlled by changing the constitution, oxidation state and conformation. Whenever a ring current is observed, its direction is correctly predicted by Hückel's rule. The largest ring currents occur when the porphyrin units have fractional oxidation states.

Published
2020
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44. Global Aromaticity and Antiaromaticity in Porphyrin Nanoring Anions.

Author

Peeks MD, Jirasek M, Claridge TDW, and Anderson HL

Abstract

Doping, through oxidation or reduction, is often used to modify the properties of π-conjugated oligomers. In most cases, the resulting charge distribution is difficult to determine. If the oligomer is cyclic and doping establishes global aromaticity or antiaromaticity, then it is certain that the charge is fully delocalized over the entire perimeter of the ring. Herein we show that reduction of a six-porphyrin nanoring using decamethylcobaltocene results in global aromaticity (in the 6- state; [90 π]) and antiaromaticity (in the 4- state; [88 π]), consistent with the Hückel rules. Aromaticity is assigned by NMR spectroscopy and density-functional theory calculations., (© 2019 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published
2019
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45. Tuning the Circumference of Six-Porphyrin Nanorings.

Author

Haver R, Tejerina L, Jiang HW, Rickhaus M, Jirasek M, Grübner I, Eggimann HJ, Herz LM, and Anderson HL

Abstract

Most macrocycles are made from a simple repeat unit, resulting in high symmetry. Breaking this symmetry allows fine-tuning of the circumference, providing better control of the host-guest behavior and electronic structure. Here, we present the template-directed synthesis of two unsymmetrical cyclic porphyrin hexamers with both ethyne (C2) and butadiyne (C4) links, and we compare these nanorings with the symmetrical analogues with six ethyne or six butadiyne links. Inserting two extra carbon atoms into the smaller nanoring causes a spectacular change in binding behavior: the template affinity increases by a factor of 3 × 10 9 , to a value of ca. 10 38 M -1 , and the mean effective molarity is ca. 830 M. In contrast, removing two carbon atoms from the largest nanoring results in almost no change in its template-affinity. The strain in these nanorings is 90-130 kJ mol -1 , as estimated both from DFT calculation of homodesmotic reactions and from comparing template affinities of linear and cyclic oligomers. Breaking the symmetry has little effect on the absorption and fluorescence behavior of the nanorings: the low radiative rates that are characteristic of a circular delocalized S 1 excited state are preserved in the low-symmetry macrocycles.

Published
2019
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46. Single-Acetylene Linked Porphyrin Nanorings.

Author

Rickhaus M, Vargas Jentzsch A, Tejerina L, Grübner I, Jirasek M, Claridge TDW, and Anderson HL

Abstract

The synthesis of ethyne-linked porphyrin nanorings has been achieved by template-directed Sonogashira coupling. The cyclic hexamer and octamer are predicted by density functional theory to adopt low symmetry conformations, due to dihedral twists between neighboring porphyrin units, but their symmetries are effectively D 6h and D 8h , respectively, in solution by 1 H NMR. The fluorescence spectra indicate that the singlet excited states of these nanorings are highly delocalized.

Published
2017
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47. Hypothalamic modulation of thermogenesis and energy substrate utilization.

Author

Atrens DM, Siviy SM, Holmes LJ, Solowij N, and Jirasek M

Subjects
Animals, Body Weight, Electric Stimulation, Male, Rats, Rats, Inbred Strains, Respiration, Body Temperature Regulation, Energy Metabolism, Hypothalamus physiology
Abstract

The metabolic effects of electrical stimulation of the hypothalamus were investigated using indirect calorimetry. Stimulation of either the ventromedial hypothalamic nucleus (VMH) or the lateral hypothalamic area (LH) increased both respiratory quotient (RQ) and energy expenditure (EE) in 23 lightly anesthetized rats. The use of a muscle relaxant to reduce motor activity and a regression analysis on the residual activity showed that the metabolic changes were independent of motor activity following LH stimulation. The increased RQ indicates that stimulation increased the dependence on carbohydrates as an energy substrate. The increased EE indicates that the LH modulates EE by mediating thermogenesis. The interpretation of the metabolic changes in RQ and EE following VMH stimulation is complicated by the fact that there were significant relationships between residual activity and metabolic changes in the sedated rats with VMH electrodes. Together, these data suggest that the hypothalamus regulates body weight by controlling energy expenditure, as well as energy intake. At the same time, hypothalamic activity influences which substrate the rat uses for energy.

Published
1987
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48. Effects of ethanol and tertiary-butanol on energy expenditure and substrate utilization in the rat.

Author

Siviy SM, Atrens DM, Jirasek M, and Holmes LJ

Subjects
Animals, Calorimetry, Indirect, Lipid Metabolism, Male, Rats, Rats, Inbred Strains, tert-Butyl Alcohol, Butanols pharmacology, Energy Metabolism drug effects, Ethanol pharmacology, Oxygen Consumption drug effects
Abstract

The acute effects of ethanol and tertiary-butanol, an alcohol which is not metabolized via the alcohol dehydrogenase pathway, on whole body metabolism were studied using indirect calorimetry. Ethanol, but not t-butanol, increased energy expenditure in food-deprived rats. Both ethanol and t-butanol reduced respiratory quotient (RQ), an index of overall body energy substrate utilization. The lowered RQ indicates an increased dependence upon lipids as an energy source. Taken together, these data suggest that ethanol, probably within a narrow dose range, can enhance energy expenditure in the rat, either via a metabolite (e.g., acetaldehyde) or through a consequence of its oxidation. The increase in lipid mobilization seen after acute treatment with ethanol, on the other hand, appears to be independent of its oxidation.

Published
1987
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