426 research outputs found
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Materials design by evolutionary optimization of functional groups in metal-organic frameworks
A genetic algorithm that efficiently optimizes a desired physical or functional property in metal-organic frameworks (MOFs) by evolving the functional groups within the pores has been developed. The approach has been used to optimize the CO₂ uptake capacity of 141 experimentally characterized MOFs under conditions relevant for postcombustion CO₂ capture. A total search space of 1.65 trillion structures was screened, and 1035 derivatives of 23 different parent MOFs were identified as having exceptional CO₂ uptakes of >3.0 mmol/g (at 0.15 atm and 298 K). Many well-known MOF platforms were optimized, with some, such as MIL-47, having their CO₂ adsorption increase by more than 400%. The structures of the high-performing MOFs are provided as potential targets for synthesis.: We thank the Natural Sciences and Engineering Research Council of Canada, Carbon Management Canada, and Canada Research Chairs Program for financial support and Compute Canada and the Canada Foundation for Innovation for computing resource
Enantioselective palladium-catalyzed hydrosilylation of styrene: Detailed reaction mechanism from first-principles and hybrid QM/MM molecular dynamics simulations
The mechanism of the enantioselective hydrosilylation of styrene catalyzed by Pd-0 species generated in situ from dichloro {1-{(R)-1-[(S)-2(diphenylphosphino-kappaP)ferrocenyl]ethyl}-3-trimethylphenyl-5-1H-pyrazole-kappaN}palladium, 1, has been investigated in detail through ab initio molecular dynamics and hybrid ab initio molecular dynamics/molecular mechanics (QM/MM) calculations. Different QM/MM models have been adopted in order to probe the specific steric and electronic contributions of different substituents. The catalytic cycle is initiated by the formation of a weakly bound pi-complex (DeltaE approximate to -5.4 kcal/mol) under simultaneous detachment of the pyrazole ligand. In agreement with a Chalk-Harrod mechanism, this is followed by the migratory insertion of the hydride, which leads to a eta(3)-coordination mode of the benzylic fragment. The significant stabilization of the allylic intermediate (DeltaE approximate to -11 kcal/mol) is responsible for the high regioselectivity of the reaction (as well as for its enantioselectivity). The rate-determining step with an activation barrier of 16 kcal/mol is the migration of the silyl ligand to the a-carbon of the substrate with concomitant closure of the ligand chelate ring. This step leads to the formation of an intermediate in which the phenyl moiety of the product remains coordinated in an eta(2)-mode to the palladium. The addition of trichlorosilane leads to product formation and hence to the regeneration of the catalyst. A unimolecular reaction pathway on the other hand, in which the transfer of the silyl ligand to the benzylic fragment is concerted with the addition of a molecule of HSiCl3 to the catalyst, is disfavored by an activation barrier of similar to30 kcal/mol
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Idealized Carbon-Based Materials Exhibiting Record Deliverable Capacities for Vehicular Methane Storage
Materials
for vehicular methane storage have been extensively studied,
although no suitable material has been found. In this work, we use
molecular simulation to investigate three types of carbon-based materials,
Schwarzites, layered graphenes, and carbon nanoscrolls, for use in
vehicular methane storage under adsorption conditions of 65 bar and
298 K and desorption conditions of 5.8 bar and 358 K. Ten different
Schwarzites were tested and found to have high adsorption with maximums
at 273 VSTP/V, but middling deliverable capacities of no
more than 131 VSTP/V. Layered graphene and graphene nanoscrolls
were found to have extremely high CH4 adsorption capacities
of 355 and 339 VSTP/V, respectively, when the interlayer
distance was optimized to 11 Å. The deliverable capacities of
perfectly layered graphene and graphene nanoscrolls were also found
to be exceptional with values of 266 and 252 VSTP/V, respectively,
with optimized interlayer distances. These values make idealized graphene
and nanoscrolls the record holders for adsorption and deliverable
capacities under vehicular methane storage conditions
Hyaluronic Acid Instillation Following Arthroscopic Anterior Cruciate Ligament Reconstruction: A Double-blinded, Randomised Controlled Study.
PURPOSE: To assess the effect of hyaluronic acid instillation after arthroscopic anterior cruciate ligament (ACL) reconstruction for improving pain, range of movement, and function of the knee. METHODS: 28 men and 4 women underwent arthroscopic ACL reconstruction for isolated ACL rupture (partial or complete) and instability after recreational sports injury 2 to 120 months earlier. They were randomised to undergo arthroscopic ACL reconstruction followed by intra-articular viscoseal instillation (13 men and 3 women) or arthroscopic ACL reconstruction alone (15 men and 1 woman). The knee injury osteoarthritis outcome score (for pain, symptoms, activities of daily living, sport and recreation function, and quality of life), range of movement, knee circumference, and analgesic use were assessed on days -1, 1, and 2, and weeks 2, 6 and 12. RESULTS: Patient demographics were similar at baseline. At postoperative days 1 and 2, all subscales of the knee injury osteoarthritis outcome score (except for quality of life) were significantly higher in the viscoseal group. At weeks 2, 6, and 12, improvement in both groups equalised. Knee swelling (change in knee circumference) was significantly less in the viscoseal group at days 1 and 2 (p=0.009 and p=0.038, respectively, Mann-Whitney U test). Only one patient in the viscoseal group had a limited range of movement. No patient developed any adverse reaction. CONCLUSION: Intra-articular viscoseal instillation improved pain control and swelling 2 days after arthroscopic ACL reconstruction.published_or_final_versio
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Imparting gas selective and pressure dependent porosity into a non-porous solid: Via coordination flexibility
Using a simple hard-soft acid-base concept we have deliberately designed gas-specific and pressure dependent porosity into a non-porous solid via coordination flexibility. This creates distinct gate-openings wherein the CO2 molecule opens-up the framework pores by rotating the ligand about the weaker hard-soft bonds (hard-soft gate control). For this, we have studied the CO2 gating behaviour of M(4-PyC)2 (M = Mg, Mn and Cu), which represent metals of varying hardness. A combination of quantum chemical calculations, molecular dynamics and Grand canonical Monte Carlo simulations were performed to examine the gate opening of the isonicotinate ligands in Mg(4-PyC)2. The simulations show that interaction of the CO2 molecules with the isonicotinate ligands at different CO2 loadings can result in pressure-dependent gate opening. Furthermore, the simulated CO2 uptake values calculated using the partially gate-opened structures at different loadings showed good agreement with the experimental uptake values. This provides an effective strategy for designing highly-stable dynamic porous solids employing rigid frameworks
Stage-specific manifestation of mold infections in bone marrow transplant recipients: Risk factors and clinical significance of positive concentrated smears
Potassium hydroxide-concentrated smears, prepared from sedimented remains of clinical specimens, were used to distinguish between mold infection and exogenous contamination in fungal culture-positive specimens. This method was applied in the study of 3,857 clinical specimens from 230 bone marrow transplant recipients who were followed up prospectively for infectious complications. Concentrated smears of only 86 (from 21 infected patients) of 149 fungal culture-positive specimens were positive for hyphae; 82 of the strains were Aspergillus species. Concentrated smears of the remaining 63 fungal culture-positive specimens were negative; the strains identified by culture were considered as exogenous contaminants (87% of which were Penicillium species). A stage-specific manifestation of mold infection was observed: 67% of mold infections occurred during acute graft-vs.-host disease (GVHD) a median of 47 days after transplantation, whereas 9% of mold infections occurred as rapidly fatal invasive disease before engraftment. Overall, of the 21 patients with mold infection, 17 (81%) had invasive mold disease, and four (19%) had mold colonization of airways secondary to chronic GVHD after day 100. The significant risk factors for mold infection were total-body irradiation and grade 2-4 acute GVHD. Because of our high mortality rate (82%), the consideration of antimold prophylaxis for such patients may be warranted.published_or_final_versio
Thienothiophene-benzotriazole-based semicrystalline linear copolymers for organic field effect transistors
A series of thienothiophene-benzotriazole-based semicrystalline copolymers, PTTBTz, PTTBTz-F, and PTTBTz-OR, were synthesized by considering chain linearity, planarity and inter-chain packing by virtue of non-covalent attractive interaction. Fluorine and alkoxy substituents were introduced to modulate the intra- and inter-chain coulombic interactions and crystalline ordering. The fluorine and alkoxy-substituted PTTBTz-F and PTTBTz-OR showed pronounced inter-chain packing with edge-on orientation confirmed by UV-vis absorption and X-ray diffraction measurements. The well-resolved diffraction patterns were obtained for PTTBTz-F and PTTBTz-OR, showing (100)similar to(500) inter-lamellar scattering peaks (d-spacing, 17 similar to 18 angstrom) in the out-of-plane direction and a pi-pi stacking peak (d-spacing, 3.5 similar to 4.1 angstrom) in the in-plane direction. Organic field effect transistor (OFET) devices were fabricated with a bottom gate and top contact geometry. PTTBTz-F (mu(h) = 4.49 x 10(-2) cm(2) V-1 s(-1), on/off ratio = 1.13 x 107) and PTTBTz-OR (mu(h) = 8.39 x 10(-3) cm(2) V-1 s(-1), on/off ratio = 2.98 x 104) showed nearly 3 and 2 orders of magnitude higher hole mobility upon annealing at 305 and 260 degrees C, with compared to the unsubstituted PTTBTz.X1165Ysciescopu
Mp1p Is a Virulence Factor in Talaromyces (Penicillium) marneffei
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Identification of novel porcine and bovine parvoviruses closely related to human parvovirus 4
Human parvovirus 4 (PARV4), a recently discovered parvovirus found exclusively in human plasma and liver tissue, was considered phylogenetically distinct from other parvoviruses. Here, we report the discovery of two novel parvoviruses closely related to PARV4, porcine hokovirus (PHoV) and bovine hokovirus (BHoV), from porcine and bovine samples in Hong Kong. Their nearly full-length sequences were also analysed. PARV4-like viruses were detected by PCR among 44.4% (148/333) of porcine samples (including lymph nodes, liver, serum, nasopharyngeal and faecal samples), 13% (4/32) of bovine spleen samples and 2% (7/362) of human serum samples that were sent for human immunodeficiency virus and hepatitis C virus antibody tests. Three distinct parvoviruses were identified, including two novel parvoviruses, PHoV and BHoV, from porcine and bovine samples and PARV4 from humans, respectively. Analysis of genome pequences from seven PHoV strains, from three BHoV strains and from one PARV4 strain showed that the two animal parvoviruses were most similar to PARV4 with 61.5-63% nt identities and, together with PARV4 (HHoV), formed a distinct cluster within the family Parvoviridae. The three parvoviruses also differed from other parvoviruses by their relatively large predicted VP1 protein and the presence of a small unique conserved putative protein. Based on these results, we propose a separate genus, Hokovirus, to describe these three parvoviruses. The co-detection of porcine reproductive and respiratory syndrome virus, the agent associated with the recent 'high fever' disease outbreaks in pigs in China, from our porcine samples warrants further investigation. © 2008 SGM.published_or_final_versio
The effect of posterior capsule repair upon post-operative hip dislocation following primary total hip arthroplasty
<p>Abstract</p> <p>Background</p> <p>Herein, we evaluated, retrospectively, the effect of posterior capsular repair upon postoperative hip dislocation subsequent to total hip arthroplasty (THA) incorporating a posterolateral approach.</p> <p>Methods</p> <p>A total of 181 patients undergoing 204 primary non-complicated THA surgical procedures in the period from January 2000 to October 2005 inclusively were included in this study. The patients were separated into two groups by whether the posterior capsular repair had been incorporated in the surgical procedure. For the surgeon did not commence repairing the posterior capsule until July, 2003, all members in the group that did not undergo posterior capsular repair (142 hips from 131 patients) were collected since January, 2000 to July, 2003, while the members in the group that underwent posterior capsular repair (62 hips from 52 patients) were followed since July, 2003, to October, 2005. With a minimum follow-up period of 12 months, we evaluated the early post-operative dislocation rate.</p> <p>Results</p> <p>The early postoperative hip-dislocation rate for the group who did not undergo posterior capsular repair appeared to be substantially greater (6.38% versus 0%) than the corresponding figure for the group the members of which underwent posterior capsular repair. In addition, patient demographics and the orientation of acetabular components for the replaced hip joints, as presented in postoperative radiographs, did not differ between the two groups.</p> <p>Conclusion</p> <p>Thus, surgeons should include posterior capsular repair as an important step in the surgical procedures of posterolateral approach for all THA in order to reduce the likelihood of early hip dislocation subsequent to THA.</p
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