228 research outputs found
Superconductivity induced by doping holes in the nodal-line semimetal NaAlGe
The nodal-line semimetals NaAlSi and NaAlGe have significantly different
ground states despite having similar electronic structures: NaAlSi exhibits
superconductivity below 7 K, while NaAlGe exhibits semiconductive electrical
conductivity at low temperatures, indicating the formation of a pseudogap at
approximately 100 K. The origin of the pseudogap in NaAlGe is unknown but may
be associated with excitonic instability. We investigated hole-doping effects
on the ground state in the solid solution Na(Al1-xZnx)Ge and discovered that
the pseudogap is suppressed continuously with increasing Zn content, followed
by the appearance of a superconducting dome with the highest transition
temperature of 2.8 K. This superconductivity most likely results from excitonic
fluctuations.Comment: 7 pages, 9 figure
Conformational Study of Polypeptide Chains Grafted on the Surface of Polylactide Latex Particle
Polylactide (PLA) latex particle covered with polypeptide chains were prepared by means of solvent exchange method from PLA and PLA-block-polypeptide block copolymer solutions. PLA segment of the block copolymer and PLA homopolymer formed a core of the particle, and the polypeptide segment of the block copolymer, which is designed as tightly fixed biodegradable emulsifier, formed corona around the particle surface. This picture was supported by the fact that zeta-potential of PLA latex particle covered with polypeptide segment was different from that of bare PLA particle because of the presence of the ionizable group in the polypeptide chains. To clarify the effect of the ionizable group on conformation of the polypeptide chain, the relation between the polypeptide chain length and the area occupied by the single block chain was evaluated. The result that the occupied area per a polypeptide chain was linearly increased with the increase in the polypeptide chain length indicates that the polypeptide chains trail on the particle surface and did not take helical structures
Pboost/SVMによるWebユーザビリティの低いWebページの検出
平成21年度研究報告会、統計数理研究所(広尾)、H22.3.18-19ポスター発
Oral Local Anesthesia Successfully Ameliorated Neuropathic Pain in an Upper Limb Suggesting Pain Alleviation through Neural Plasticity within the Central Nervous System: A Case Report
Neural blockades are considered an alternative to pharmacotherapy for neuropathic pain although these blockades elicit limited effects. We encountered a patient with postbrachial plexus avulsion injury pain, which was refractory to conventional treatments but disappeared temporarily with the administration of the local anesthetic lidocaine around the left mandibular molar tooth during dental treatments. This analgesic effect on neuropathic pain by oral local anesthesia was reproducible. Under conditions of neuropathic pain, cerebral somatotopic reorganization in the sensorimotor cortices of the brain has been observed. Either expansion or shrinkage of the somatotopic representation of a deafferentated body part correlates with the degree of neuropathic pain. In our case, administration of an oral local anesthetic shrank the somatotopic representation of the mouth, which is next to the upper limb representation and thereby expanded the upper limb representation in a normal manner. Consequently, oral local anesthesia improved the pain in the upper limb. This case suggests that pain alleviation through neural plasticity within the brain is related to neural blockade
New reactions thallium compounds : A simple synthesisi of 4-and 7-substituted indoles bearing a nitro or an azido group
金沢大学大学院自然科学研究科生理活性物質科学金沢大学薬学
Nucleophilic substitution reaction of 1-methoxy-6-nitro-indole
金沢大学大学院自然科学研究科生理活性物質科学金沢大学薬学部Nucleophilic substitution reaction of 1-methoxy-6-nitroindole (1) was examined. In the reaction with sodium methoxide or sodium cyanide as a nucleophile, 2- and 3-methoxy-6-nitroindoles, and 7-cyano-6-nitroindole were obtained, respectively. A novel methylene homologation at the 3-position was found in the reaction of 1 with sodium methyl sulfide or potassium salt of diethyl malonate to give 3-methylthiomethytyl-6-nitroindole and its 2-methylthio derivative, and diethyl 2-(6-nitroindol-3-yl)methylmalonate, respectively. Possible reaction mechanism is discussed
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