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471.
Mark Schülke Gábor Kiss Hubert Paulus Martin Lammers Vaidyanath Ramachandran Kannan Sankaran Karl-Heinz Müller 《Analytical and bioanalytical chemistry》2009,393(8):1843-1856
Metal hydrides are one of the most promising technologies in the field of hydrogen storage due to their high volumetric storage
density. Important reaction steps take place at the very surface of the solid during hydrogen absorption. Since these reaction
steps are drastically influenced by the properties and potential contamination of the solid, it is very important to understand
the characteristics of the surface, and a variety of analytical methods are required to achieve this. In this work, a TiMn2-type metal hydride alloy is investigated by means of high-pressure activation measurements, X-ray photoelectron spectroscopy
(XPS), secondary neutral mass spectrometry (SNMS) and thermal desorption mass spectrometry (TDMS). In particular, TDMS is
an analytical tool that, in contrast to SIMS or SNMS, allows the hydrogen content in a metal to be quantified. Furthermore,
it allows the activation energy for desorption to be determined from TDMS profiles; the method used to achieve this is presented
here in detail. In the results section, it is shown that the oxide layer formed during manufacture and long-term storage prevents
any hydrogen from being absorbed, and so an activation process is required. XPS measurements show the oxide states of the
main alloy elements, and a layer 18 nm thick is determined via SNMS. Furthermore, defined oxide layers are produced and characterized
in UHV using XPS. The influence of these thin oxide layers on the hydrogen sorption process is examined using TDMS. Finally,
the activation energy of desorption is determined for the investigated alloy using the method presented here, and values of
46 kJ/mol for hydrogen sorbed in UHV and 103 kJ/mol for hydrogen originating from the manufacturing process are obtained. 相似文献
472.
A profile on a graph G is any nonempty multiset whose elements are vertices from G. The corresponding remoteness function associates to each vertex x∈V(G) the sum of distances from x to the vertices in the profile. Starting from some nice and useful properties of the remoteness function in hypercubes, the remoteness function is studied in arbitrary median graphs with respect to their isometric embeddings in hypercubes. In particular, a relation between the vertices in a median graph G whose remoteness function is maximum (antimedian set of G) with the antimedian set of the host hypercube is found. While for odd profiles the antimedian set is an independent set that lies in the strict boundary of a median graph, there exist median graphs in which special even profiles yield a constant remoteness function. We characterize such median graphs in two ways: as the graphs whose periphery transversal number is 2, and as the graphs with the geodetic number equal to 2. Finally, we present an algorithm that, given a graph G on n vertices and m edges, decides in O(mlogn) time whether G is a median graph with geodetic number 2. 相似文献
473.
Despite recent progress in the production of large area, high quality graphene, the technological implementation of such sheets into real world devices still requires intense future research. A major obstacle is the development of efficient chemical methods for the patterned functionalization of graphene, in order to locally define regions with a band gap, without the simultaneous introduction of defects into the carbon framework. In this respect, it can be expected that much can be learned from the further developed chemistry of carbon nanotubes as the one‐dimensional counterparts of graphene. Comparatively closer to technological applications is the use of graphene in flexible, transparent electrodes, as component of (bio‐)chemical sensors, or as reinforcing filler in composite materials. However, most of these applications require the development of optimized protocols for the conversion of graphene oxide into pristine graphene. To this end, a great challenge is not only to quantitatively remove the oxygen‐containing functional groups, but also to heal the disorder in certain areas of the sp2‐hybridized honeycomb lattice. 相似文献
474.
Chandrasekar Palanichamy Parasuraman Pavadai Theivendren Panneerselvam Sankarganesh Arunachalam Ewa Babkiewicz Sureshbabu Ram Kumar Pandian Kabilan Shanmugampillai Jeyarajaguru Damodar Nayak Ammunje Suthendran Kannan Jaikanth Chandrasekaran Krishnan Sundar Piotr Maszczyk Selvaraj Kunjiappan 《Molecules (Basel, Switzerland)》2022,27(12)
Plants and their derived molecules have been traditionally used to manage numerous pathological complications, including male erectile dysfunction (ED). Mimosa pudica Linn. commonly referred to as the touch-me-not plant, and its extract are important sources of new lead molecules in drug discovery research. The main goal of this study was to predict highly effective molecules from M. pudica Linn. for reaching and maintaining penile erection before and during sexual intercourse through in silico molecular docking and dynamics simulation tools. A total of 28 bioactive molecules were identified from this target plant through public repositories, and their chemical structures were drawn using Chemsketch software. Graph theoretical network principles were applied to identify the ideal target (phosphodiesterase type 5) and rebuild the network to visualize the responsible signaling genes, proteins, and enzymes. The 28 identified bioactive molecules were docked against the phosphodiesterase type 5 (PDE5) enzyme and compared with the standard PDE5 inhibitor (sildenafil). Pharmacokinetics (ADME), toxicity, and several physicochemical properties of bioactive molecules were assessed to confirm their drug-likeness property. Molecular dynamics (MD) simulation modeling was performed to investigate the stability of PDE5–ligand complexes. Four bioactive molecules (Bufadienolide (−12.30 kcal mol−1), Stigmasterol (−11.40 kcal mol−1), Isovitexin (−11.20 kcal mol−1), and Apigetrin (−11.20 kcal mol−1)) showed the top binding affinities with the PDE5 enzyme, much more powerful than the standard PDE5 inhibitor (−9.80 kcal mol−1). The four top binding bioactive molecules were further validated for a stable binding affinity with the PDE5 enzyme and conformation during the MD simulation period as compared to the apoprotein and standard PDE5 inhibitor complexes. Further, the four top binding bioactive molecules demonstrated significant drug-likeness characteristics with lower toxicity profiles. According to the findings, the four top binding molecules may be used as potent and safe PDE5 inhibitors and could potentially be used in the treatment of ED. 相似文献
475.
Hee Yang Lee Dr. Seungyeop Baek Minhae Cha Prof. Seung-Hoon Yang Illhwan Cho Heewon Shin Dr. Sejin Lee Dr. Hye Yun Kim Songmin Lee Dr. Jisu Shin Dr. Donghee Lee Kyeonghwan Kim InWook Park Soljee Yoon Dr. Jiyoon Kim Seong Jeong Park Dr. Seong Muk Kim Ko Eun Kim Hye Ju Kim Min-Seok Oh Dr. Gwan-Ho Lee Dr. Byung-Yong Yu Priyadharshini Kannan Dr. Keunwan Park Prof. YoungSoo Kim 《Angewandte Chemie (International ed. in English)》2023,62(7):e202210209
Amyloid-β (Aβ) in the form of neurotoxic aggregates is regarded as the main pathological initiator and key therapeutic target of Alzheimer's disease. However, anti-Aβ drug development has been impeded by the lack of a target needed for structure-based drug design and low permeability of the blood–brain barrier (BBB). An attractive therapeutic strategy is the development of amyloid-based anti-Aβ peptidomimetics that exploit the self-assembling nature of Aβ and penetrate the BBB. Herein, we designed a dimeric peptide drug candidate based on the N-terminal fragment of Aβ, DAB, found to cross the BBB and solubilize Aβ oligomers and fibrils. Administration of DAB reduced amyloid burden in 5XFAD mice, and downregulated neuroinflammation and prevented memory impairment in the Y-maze test. Peptide mapping assays and molecular docking studies were utilized to elucidate DAB-Aβ interaction. To further understand the active regions of DAB, we assessed the dissociative activity of DAB with sequence modifications. 相似文献
476.
R. Sathyalakshmi V. Kannan R. Bairava Ganesh P. Ramasamy 《Crystal Research and Technology》2007,42(1):78-83
L(+)Glutamic acid hydrochloride [HOOC (CH2)2CH(NH2) COOH·HCl], a monoamino dicarboxylic acid salt of L‐Glutamic acid was synthesized and the synthesis was confirmed by FTIR analysis. Solubility of the material in water was determined. Pure and Thiourea doped L‐Glutamic acid hydrochloride crystals were grown by low temperature solution growth using solvent evaporation technique. XRD, UV‐Vis‐NIR analyses were carried out for both pure and thiourea doped crystals. The crystals were qualitatively analyzed by EDAX analysis and the presence of thiourea was confirmed. The cell parameters of L‐Glutamic acid hydrochloride have been determined as a = 5.151 Å, b = 11.79 Å, c = 13.35 Å by X‐ray diffraction analysis and it crystallizes in orthorhombic space group P212121. UV‐Vis‐NIR spectra analysis showed good optical transmission in the entire visible region for both pure and doped crystals. Micro hardness of both pure and doped crystals has been determined using Vickers micro hardness tester. The SHG efficiencies of both pure and doped crystals were determined using Kurtz powder test and pure L‐Glutamic acid hydrochloride crystal was found to possess better efficiency than thiourea doped L‐Glutamic acid hydrochloride crystals. (© 2007 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献