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981.
Suppression of Voltage Decay through Manganese Deactivation and Nickel Redox Buffering in High‐Energy Layered Lithium‐Rich Electrodes 下载免费PDF全文
Kyojin Ku Jihyun Hong Hyungsub Kim Hyeokjun Park Won Mo Seong Sung‐Kyun Jung Gabin Yoon Kyu‐Young Park Haegyeom Kim Kisuk Kang 《Liver Transplantation》2018,8(21)
Cobalt‐free layered lithium‐rich nickel manganese oxides, Li[LixNiyMn1?x?y]O2 (LLNMO), are promising positive electrode materials for lithium rechargeable batteries because of their high energy density and low materials cost. However, substantial voltage decay is inevitable upon electrochemical cycling, which makes this class of materials less practical. It has been proposed that undesirable voltage decay is linked to irreversible structural rearrangement involving irreversible oxygen loss and cation migration. Herein, the authors demonstrate that the voltage decay of the electrode is correlated to Mn4+/Mn3+ redox activation and subsequent cation disordering, which can be remarkably suppressed via simple compositional tuning to induce the formation of Ni3+ in the pristine material. By implementing our new strategy, the Mn4+/Mn3+ reduction is subdued by an alternative redox reaction involving the use of pristine Ni3+ as a redox buffer, which has been designed to be widened from Ni3+/Ni4+ to Ni2+/Ni4+, without compensation for the capacity in principle. Negligible change in the voltage profile of modified LLNMO is observed upon extended cycling, and manganese migration into the lithium layer is significantly suppressed. Based on these findings, we propose a general strategy to suppress the voltage decay of Mn‐containing lithium‐rich oxides to achieve long‐lasting high energy density from this class of materials. 相似文献
982.
Large‐Scale Conductive Yarns Based on Twistable Korean Traditional Paper (Hanji) for Supercapacitor Applications: Toward High‐Performance Paper Supercapacitors 下载免费PDF全文
Young‐Jung Heo Ji Won Lee Yeong‐Rae Son Jong‐Hoon Lee Chang Su Yeo Tran Dai Lam Sang Yoon Park Soo‐Jin Park Le Hoang Sinh Min Kyoon Shin 《Liver Transplantation》2018,8(27)
A simple and scalable method to fabricate a yarn‐type supercapacitor with a large specific capacitance without the aid of traditional pseudocapacitive electrode materials such as conducting polymers and metal oxides is reported. The yarn‐type supercapacitors are made from twisting reduced graphene oxide (rGO) or/and single‐walled carbon nanotubes (SWNTs)‐coated Korean traditional paper (KTP). The yarn‐type paper supercapacitor displays surprisingly enhanced electrochemical capacitance values, showing synergistic effect between rGO and SWNTs (500 times larger than performance of yarn‐type rGO‐coated paper supercapacitors). Coating rGO or/and SWNTs on KTP gives good morphology to the composite film, in which porosity increases and mean pore diameter decreases. The yarn‐type rGO/SWNT paper supercapacitor shows good mechanical strength, high flexibility, excellent electrochemical performance, and long‐life operation. The yarn‐type supercapacitor has an excellent electrochemical performance with a specific capacitance of 366 F g?1 at scan rate of 25 mV s?1 and high stability without any degradation in electrical performance up to 10 000 charge–discharge cycles. The average capacitance of rGO/SWNT@KTP yarn‐type supercapacitors is seven times higher than that of sheet‐type supercapacitors at scan rate of 500 mV s?1. The lighting of a red light‐emitting diode (LED) is demonstrated by the yarn‐type paper supercapacitor without connecting supercapacitors in series. 相似文献
983.
984.
Design Strategies,Practical Considerations,and New Solution Processes of Sulfide Solid Electrolytes for All‐Solid‐State Batteries 下载免费PDF全文
Kern Ho Park Qiang Bai Dong Hyeon Kim Dae Yang Oh Yizhou Zhu Yifei Mo Yoon Seok Jung 《Liver Transplantation》2018,8(18)
Owing to the ever‐increasing safety concerns about conventional lithium‐ion batteries, whose applications have expanded to include electric vehicles and grid‐scale energy storage, batteries with solidified electrolytes that utilize nonflammable inorganic materials are attracting considerable attention. In particular, owing to their superionic conductivities (as high as ≈10?2 S cm?1) and deformability, sulfide materials as the solid electrolytes (SEs) are considered the enabling material for high‐energy bulk‐type all‐solid‐state batteries. Herein the authors provide a brief review on recent progress in sulfide Li‐ and Na‐ion SEs for all‐solid‐state batteries. After the basic principles in designing SEs are considered, the experimental exploration of multicomponent systems and ab initio calculations that accelerate the search for stronger candidates are discussed. Next, other issues and challenges that are critical for practical applications, such as instability in air, electrochemical stability, and compatibility with active materials, are discussed. Then, an emerging progress in liquid‐phase synthesis and solution process of SEs and its relevant prospects in ensuring intimate ionic contacts and fabricating sheet‐type electrodes is highlighted. Finally, an outlook on the future research directions for all‐solid‐state batteries employing sulfide superionic conductors is provided. 相似文献
985.
Bonhan Koo Choong Eun Jin Se Yoon Park Tae Yoon Lee Jeonghun Nam Young‐Rock Jang Sun Mi Kim Ji Yeun Kim Sung‐Han Kim Yong Shin 《Journal of biophotonics》2018,11(4)
Recent zoonotic outbreaks, such as Zika, Middle East respiratory syndrome and Ebola, have highlighted the need for rapid and accurate diagnostic assays that can be used to aid pathogen control. Q fever is a zoonotic disease caused by the transmission of Coxiella burnetii that can cause serious illness in humans through aerosols and is considered a potential bioterrorism agent. However, the existing assays are not suitable for the detection of this pathogen due to its low levels in real samples. We here describe a rapid bio‐optical sensor for the accurate detection of Q fever and validate its clinical utility. By combining a bio‐optical sensor, that transduces the presence of the target DNA based on binding‐induced changes in the refractive index on the waveguide surface in a label‐free and real‐time manner, with isothermal DNA amplification, this new diagnostic tool offers a rapid (<20 min), 1‐step DNA amplification/detection method. We confirmed the clinical sensitivity (>90%) of the bio‐optical sensor by detecting C. burnetii in 11 formalin‐fixed, paraffin‐embedded liver biopsy samples from acute Q fever hepatitis patients and in 16 blood plasma samples from patients in which Q fever is the cause of fever of unknown origin. 相似文献
986.
Back Cover: Characterization and application of porous gold nanoparticles as 2‐photon luminescence imaging agents: 20‐fold brighter than gold nanorods (J. Biophotonics 2/2018) 下载免费PDF全文
Joo H. Park Jisoo Park Suho Kim Se‐Hwa Kim Tae G. Lee Jae Y. Lee Jung‐Sub Wi 《Journal of biophotonics》2018,11(2)
Gold nanoparticles serve as imaging contrast agents useful for two‐photon nonlinear microscopy of biological cells and tissues. In this study, 100‐nm‐sized gold particles with a multitude of nanopores embedded inside have been physically synthesized and investigated for the plasmonic enhancement in two‐photon luminescence. Exhibiting remarkable potential for two‐photon imaging, the porous gold nanoparticles boost near‐infrared light absorption substantially and allow emission signals 20 times brighter than gold nanorods being currently used as typical imaging agents. Further details can be found in the article by Joo H. Park et al. ( e201700174 )
987.
Sexual size dimorphism (SSD) is common in birds and has been linked to various selective forces. Nevertheless, the question of how and when the sexes start to differentiate from each other is poorly studied. This is a critical knowledge gap, as sex differences in growth may cause different responses to similar ecological conditions. In this study, we describe the sex‐specific growth – based on body mass and five morphometric measurements – of 56 captive Black‐tailed Godwit Limosa limosa limosa chicks raised under ad libitum food conditions, and conclude that all six growth curves are sex‐specific. Females are the larger sex in terms of body mass and skeletal body size. To test whether sex‐specific growth leads to sex‐specific susceptibility to environmental conditions, we compared the age‐specific sizes of male and female chicks in the wild with those of Black‐tailed Godwits reared in captivity. We then tested for a relationship between residual growth and relative hatching date, age, sex and habitat type in which the wild chicks were born. Early‐hatched chicks were relatively bigger and in better condition than late‐hatched chicks, but body condition and size were not affected by natal habitat type. Female chicks deviated more negatively from the sex‐specific growth curves than male chicks for body mass and total‐head length. This suggests that the growth of the larger females is more susceptible to limiting environmental conditions. On average, the deviations of wild chicks from the predicted growth curves were negative for all measurements, which suggests that conditions are limiting in the current agricultural landscape. We argue that in estimating growth curves for sexually dimorphic species, it is critical first to make accurate sex and age determinations. 相似文献
988.
Xiuhong Cai Kamran Haider Jianxun Lu Slaven Radic Chang Yun Son Qiang Cui M.R. Gunner 《BBA》2018,1859(10):997-1005
Cytochrome c Oxidase (CcO) reduces O2, the terminal electron acceptor, to water in the aerobic, respiratory electron transport chain. The energy released by O2 reductions is stored by removing eight protons from the high pH, N-side, of the membrane with four used for chemistry in the active site and four pumped to the low pH, P-side. The proton transfers must occur along controllable proton pathways that prevent energy dissipating movement towards the N-side. The CcO N-side has well established D- and K-channels to deliver protons to the protein interior. The P-side has a buried core of hydrogen-bonded protonatable residues designated the Proton Loading Site cluster (PLS cluster) and many protonatable residues on the P-side surface, providing no obvious unique exit. Hydrogen bond pathways were identified in Molecular Dynamics (MD) trajectories of Rb. sphaeroides CcO prepared in the PR state with the heme a3 propionate and Glu286 in different protonation states. Grand Canonical Monte Carlo sampling of water locations, polar proton positions and residue protonation states in trajectory snapshots identify a limited number of water mediated, proton paths from PLS cluster to the surface via a (P-exit) cluster of residues. Key P-exit residues include His93, Ser168, Thr100 and Asn96. The hydrogen bonds between PLS cluster and P-exit clusters are mediated by a water wire in a cavity centered near Thr100, whose hydration can be interrupted by a hydrophobic pair, Leu255B (near CuA) and Ile99. Connections between the D channel and PLS via Glu286 are controlled by a second, variably hydrated cavity.
Significance statement
Cytochrome C oxidase plays a crucial role in cellular respiration and energy generation. It reduces O2 to water and uses the released free energy to move protons across mitochondrial and bacterial cell membranes adding to the essential electrochemical gradient. Energy storage requires that protons are taken up from the high pH, N-side and released to the low pH, P-side of the membrane. We identify a potential proton exit from a buried cluster of polar residues (the proton loading site) to the P-side of CcO via paths made up of waters and conserved residues. Two water cavities connect the proton exit pathway to the surface only when hydrated. Changing the degree of hydration may control otherwise energetically favorable proton backflow from the P-side. 相似文献989.
Lenka Hájková Zdeněk Hubálek Věra Kožnarová Lenka Bartošová Martin Možný 《Aerobiologia》2018,34(2):157-169
This paper analyses long-term (1960–2015) onset of flowering in 16 native terrestrial plants (11 of them produce important allergens) recorded in different parts of the Czech Republic (southern, central and northern part) in relation to the North Atlantic Oscillation (NAO) index of the preceding winter and thermal data—growing degree-days (GDD) and soil temperature. Flowering occurred significantly earlier following positive winter NAO phases (causing spring to be warmer than normal in Central Europe) in nearly all early-flowering (February, March, April) species; high Pearson correlation values were recorded in, e.g. wood anemone, common snowdrop, goat willow, common hazel and common alder. There was found a difference between the southern and northern part of the country, e.g. in silver birch and pedunculate oak. Out of the later-flowering (May–July) plant species, black elder and meadow foxtail also significantly correlated with the winter NAO index, lime tree correlated less markedly. The best results of a threshold for calculation of GDD to onset of beginning of flowering were found in lime tree—it was 5 °C at all three stations. Results of other taxa were more variable (e.g. 4–7 °C in goat willow; 6–10 °C in silver birch). Pearson correlation coefficients between NAO index and GDD were negative in lime tree at all thresholds (5, 6, 7, 8, 9, 10 °C), while goat willow and silver birch were not so uniform (both positive and negative values). Correlation coefficients between phenophase onset and soil temperature (10 cm depth) had the highest values in silver birch, European larch and wood anemone. Stations situated at higher elevation showed negative correlation coefficient with soil temperature in common snowdrop, pedunculate oak, meadow foxtail and lime tree; other values were positive. 相似文献
990.
Gingerenone A Attenuates Monocyte‐Endothelial Adhesion via Suppression of I Kappa B Kinase Phosphorylation 下载免费PDF全文
Hee Joo Kim Joe Eun Son Jae Hwan Kim Charles C. Lee Hee Yang Soonham Sami Yaghmoor Youssri Ahmed Jehad Mustafa Yousef Khalid Omer Abualnaja Abdulrahman Labeed Al‐Malki Taha Abdullah Kumosani Jong Hun Kim Jung Han Yoon Park Chang Yong Lee Jong‐Eun Kim Ki Won Lee 《Journal of cellular biochemistry》2018,119(1):260-268