440 research outputs found
The minimal prime spectrum of rings with annihilator conditions
AbstractIn this paper, we study rings with the annihilator condition (a.c.) and rings whose space of minimal prime ideals, Min(R), is compact. We begin by extending the definition of (a.c.) to noncommutative rings. We then show that several extensions over semiprime rings have (a.c.). Moreover, we investigate the annihilator condition under the formation of matrix rings and classical quotient rings. Finally, we prove that if R is a reduced ring then: the classical right quotient ring Q(R) is strongly regular if and only if R has a Property (A) and Min(R) is compact, if and only if R has (a.c.) and Min(R) is compact. This extends several results about commutative rings with (a.c.) to the noncommutative setting
Effects of paramagnetic fluctuations on the thermochemistry of MnO (100) surfaces in the oxygen evolution reaction
We investigated the effects of paramagnetic (PM) fluctuations on the
thermochemistry of the MnO(100) surface in the oxygen evolution reaction (OER)
using the "noncollinear magnetic sampling method \textit{plus} "
(NCMSM). Various physical properties, such as the electronic structure,
free energy, and charge occupation, of the MnO (100) surface in the PM state
with several OER intermediates, were reckoned and compared to those in the
antiferromagnetic (AFM) state. We found that PM fluctuation enhances charge
transfer from a surface Mn ion to each of the intermediates and strengthens the
chemical bond between them, while not altering the overall features, such as
the rate determining step and resting state, in reaction pathways. The enhanced
charge transfer can be attributed to the delocalized nature of valence bands
observed in the PM surface. In addition, it was observed that chemical-bond
enhancement depends on the intermediates, resulting in significant deviations
in reaction energy barriers. Our study suggests that PM fluctuations play a
significant role in the thermochemistry of chemical reactions occurring on
correlated oxide surfaces.Comment: Maintext: 15 pages, 3 figures 2 tables; SI: 3 pages, 2 figure
Comparison of total body irradiation-based or non-total body irradiation-based conditioning regimens for allogeneic stem cell transplantation in pediatric leukemia patients
Purpose : This study aims to compare the outcome of total body irradiation (TBI)- or non-TBI-containing conditioning regimens for leukemia in children. Methods : We retrospectively evaluated 77 children conditioned with TBI (n=40) or non-TBI (n=37) regimens, transplanted at Chonnam National University Hospital between January 1996 and December 2007. The type of transplantation, disease status at the time of transplant, conditioning regimen, engraftment kinetics, development of graft-versus-host disease (GVHD), complications, cause of deaths, overall survival (OS), and event-free survival (EFS) were compared between the 2 groups. Results : Among 34 patients with acute lymphoblastic leukemia (ALL), 28 (82.4%) were in the TBI group, while 72.7% (24/33) of patients with myeloid leukemia were in the non-TBI group. Although the 5-year EFS of the 2 groups was similar for all patients (62% vs 63%), the TBI group showed a better 5-year EFS than the non-TBI group when only ALL patients were analyzed (65% vs 17%; P =0.005). In acute myelogenous leukemia patients, the non-TBI group had better survival tendency (73% vs 38%; P=0.089). The incidence of GVHD, engraftment, survival, cause of death, and late complications was not different between the 2 groups. Conclusion : The TBI and non-TBI groups showed comparable results, but the TBI group showed a significantly higher 5-year EFS than the non-TBI group in ALL patients. Further prospective, randomized controlled studies involving larger number of patients are needed to assess the late-onset complications and to compare the socioeconomic quality of life
Anti-reflective nano- and micro-structures on 4H-SiC for photodiodes
In this study, nano-scale honeycomb-shaped structures with anti-reflection properties were successfully formed on SiC. The surface of 4H-SiC wafer after a conventional photolithography process was etched by inductively coupled plasma. We demonstrate that the reflection characteristic of the fabricated photodiodes has significantly reduced by 55% compared with the reference devices. As a result, the optical response Iillumination/Idark of the 4H-SiC photodiodes were enhanced up to 178%, which can be ascribed primarily to the improved light trapping in the proposed nano-scale texturing
Protein-Directed Self-Assembly of a Fullerene Crystal
Learning to engineer self-assembly would enable the precise organization of molecules by design to create matter with tailored properties. Here we demonstrate that proteins can direct the self-assembly of buckminsterfullerene (C 60) into ordered superstructures. A previously engineered tetrameric helical bundle binds C 60 in solution, rendering it water soluble. Two tetramers associate with one C 60, promoting further organization revealed in a 1.67-Å crystal structure. Fullerene groups occupy periodic lattice sites, sandwiched between two Tyr residues from adjacent tetramers. Strikingly, the assembly exhibits high charge conductance, whereas both the protein-alone crystal and amorphous C 60 are electrically insulating. The affinity of C 60 for its crystal-binding site is estimated to be in the nanomolar range, with lattices of known protein crystals geometrically compatible with incorporating the motif. Taken together, these findings suggest a new means of organizing fullerene molecules into a rich variety of lattices to generate new properties by design
Effect Of Nitric-Oxide Post-Oxidation Annealing On High-Temperature Oxidized 4H SiC.
Metal-Oxide-Semiconductor FETs using 4H-SiC have been investigated intensively because 4H-SiC semiconductor has excellent physical properties for power-device applications
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