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Articles 931 - 960 of 4868

Full-Text Articles in Physical Sciences and Mathematics

Trap-Assisted Transport And Non-Uniform Charge Distribution In Sulphur-Rich Pbs Colloidal Quantum Dot-Based Solar Cells With Selective Contacts, Victor Malgras, Guanran Zhang, Andrew Nattestad, Tracey M. Clarke, Attila J. Mozer, Yusuke Yamauchi, Jung Ho Kim Jan 2015

Trap-Assisted Transport And Non-Uniform Charge Distribution In Sulphur-Rich Pbs Colloidal Quantum Dot-Based Solar Cells With Selective Contacts, Victor Malgras, Guanran Zhang, Andrew Nattestad, Tracey M. Clarke, Attila J. Mozer, Yusuke Yamauchi, Jung Ho Kim

Australian Institute for Innovative Materials - Papers

This study reports evidences of dispersive transport in planar PbS colloidal quantum dots heterojunction-based devices as well as the effect of incorporating a MoO3 hole selective layer on the charge extraction behavior. Steady state and transient characterization techniques are employed to determine the complex recombination processes involved in such devices. The addition of a selective contact drastically improves the device efficiency up to 3.15 % (especially through the photocurrent and series resistance) and extends the overall charge lifetime by suppressing the main first-order recombination pathway observed in device without MoO3. The lifetime and mobility calculated for our sulphur-rich PbS-based devices …

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Research Progress On Design Strategies, Synthesis And Performance Of Limn2o4-Based Cathodes, Fangxin Mao, Wei Dong Guo, Jianmin Ma Jan 2015

Research Progress On Design Strategies, Synthesis And Performance Of Limn2o4-Based Cathodes, Fangxin Mao, Wei Dong Guo, Jianmin Ma

Australian Institute for Innovative Materials - Papers

Spinel LiMn2O4 (LMO)-based composites, due to their combination of low toxicity, abundant natural resources, and excellent electrochemical performance, are regarded as promising candidate cathode materials for lithium ion batteries. Current energy storage demands are not being met with existing materials, however, because of their defects, such as fast capacity fading, low rate capability, and low specific capacity in practical applications. Manganese dissolution during electrochemical processes bears the major responsibility for capacity loss, apart from the electrolyte factor. Low electrical conductivity, low ionic diffusion efficiency, and large structural variation have adverse effects on the electrochemical performance of materials. With respect to …

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Vanadium-Based Nanostructure Materials For Secondary Lithium Battery Applications, Hui Teng Tan, Xianhong Rui, Wenping Sun, Qingyu Yan, Tuti M. Lim Jan 2015

Vanadium-Based Nanostructure Materials For Secondary Lithium Battery Applications, Hui Teng Tan, Xianhong Rui, Wenping Sun, Qingyu Yan, Tuti M. Lim

Australian Institute for Innovative Materials - Papers

Vanadium-based materials, such as V2O5, LiV3O8, VO2(B) and Li3V2(PO4)3 are compounds that share the characteristic of intercalation chemistry. Their layered or open frameworks allow facile ion movement through the interspaces, making them promising cathodes for LIB applications. To bypass bottlenecks occurring in the electrochemical performances of vanadium-based cathodes that derive from their intrinsic low electrical conductivity and ion diffusion coefficients, nano-engineering strategies have been implemented to "create" newly emerging properties that are unattainable at the bulk solid level. Integrating this concept into vanadium-based cathodes represents a promising way to circumvent the aforementioned problems as nanostructuring offers potential improvements in electrochemical …

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Coherent And Tunable Terahertz Radiation From Graphene Surface Plasmon Polarirons Excited By Cyclotron Electron Beam, Tao Zhao, Sen Gong, Min Hu, Renbin Zhong, Diwei Liu, Xiaoxing Chen, Ping Zhang, Xinran Wang, C Zhang, Peiheng Wu, Shenggang Liu Jan 2015

Coherent And Tunable Terahertz Radiation From Graphene Surface Plasmon Polarirons Excited By Cyclotron Electron Beam, Tao Zhao, Sen Gong, Min Hu, Renbin Zhong, Diwei Liu, Xiaoxing Chen, Ping Zhang, Xinran Wang, C Zhang, Peiheng Wu, Shenggang Liu

Australian Institute for Innovative Materials - Papers

Terahertz (THz) radiation can revolutionize modern science and technology. To this date, it remains big challenges to develop intense, coherent and tunable THz radiation sources that can cover the whole THz frequency region either by means of only electronics (both vacuum electronics and semiconductor electronics) or of only photonics (lasers, for example, quantum cascade laser). Here we present a mechanism which can overcome these difficulties in THz radiation generation. Due to the natural periodicity of 2π of both the circular cylindrical graphene structure and cyclotron electron beam (CEB), the surface plasmon polaritions (SPPs) dispersion can cross the light line of …

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Two-Step Self-Assembly Of Hierarchically-Ordered Nanostructures, Qiannan Liu, Ziqi Sun, Yuhai Dou, Jung Ho Kim, S X. Dou Jan 2015

Two-Step Self-Assembly Of Hierarchically-Ordered Nanostructures, Qiannan Liu, Ziqi Sun, Yuhai Dou, Jung Ho Kim, S X. Dou

Australian Institute for Innovative Materials - Papers

Due to their unique size- and shape-dependent physical and chemical properties, highly hierarchically-ordered nanostructures have attracted great attention with a view to application in emerging technologies, such as novel energy generation, harvesting, and storage devices. The question of how to get controllable ensembles of nanostructures, however, still remains a challenge. This concept paper first summarizes and clarifies the concept of the two-step self-assembly approach for the synthesis of hierarchically-ordered nanostructures with complex morphology. Based on the preparation processes, two-step self-assembly can be classified into two typical types, namely, two-step self-assembly with two discontinuous processes and two-step self-assembly completed in one-pot …

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Corrosion Protection Afforded By Praseodymium Conversion Film On Mg Alloy Aznd In Simulated Biological Fluid Studied By Scanning Electrochemical Microscopy, Seyed S. Jamali, Simon E. Moulton, Dennis E. Tallman, Maria Forsyth, Jan Weber, Azadehsadat Mirabedini, Gordon G. Wallace Jan 2015

Corrosion Protection Afforded By Praseodymium Conversion Film On Mg Alloy Aznd In Simulated Biological Fluid Studied By Scanning Electrochemical Microscopy, Seyed S. Jamali, Simon E. Moulton, Dennis E. Tallman, Maria Forsyth, Jan Weber, Azadehsadat Mirabedini, Gordon G. Wallace

Australian Institute for Innovative Materials - Papers

Surface passivation of AZNd Mg alloy with Pr(NO3)3 is studied using scanning electrochemical microscopy (SECM) in surface generation/tip collection (SG/TC) and AC modes. Corrosion protection afforded by the Pr treatment and the degradation mechanism in a simulated biological environment was examined on a local scale and compared with non-treated AZNd. SG/TC mode results revealed a drastic decrease in H2 evolution due to the Pr treatment. Mapping the local insulating characteristics using AC-SECM showed higher conductivity of the surface where H2 evolution was most favorable.

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Unique Urchin-Like Ca2ge7o16 Hierarchical Hollow Microspheres As Anode Material For The Lithium Ion Battery, Dan Li, Chuanqi Feng, Hua-Kun Liu, Zaiping Guo Jan 2015

Unique Urchin-Like Ca2ge7o16 Hierarchical Hollow Microspheres As Anode Material For The Lithium Ion Battery, Dan Li, Chuanqi Feng, Hua-Kun Liu, Zaiping Guo

Australian Institute for Innovative Materials - Papers

Germanium is an outstanding anode material in terms of electrochemical performance, especially rate capability, but its developments are hindered by its high price because it is rare in the crust of earth, and its huge volume variation during the lithium insertion and extraction. Introducing other cheaper elements into the germanium-based material is an efficient way to dilute the high price, but normally sacrifice its electrochemical performance. By the combination of nanostructure design and cheap element (calcium) introduction, urchin-like Ca2Ge7O16 hierarchical hollow microspheres have been successfully developed in order to reduce the price and maintain the …

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Enhanced Electron Lifetime Of Cdse/Cds Quantum Dot (Qd) Sensitized Solar Cells Using Znse Core-Shell Structure With Efficient Regeneration Of Quantum Dots, Rasin K. Ahmed, Long Zhao, Attila J. Mozer, Geoffrey D. Will, John M. Bell, Hongxia Wang Jan 2015

Enhanced Electron Lifetime Of Cdse/Cds Quantum Dot (Qd) Sensitized Solar Cells Using Znse Core-Shell Structure With Efficient Regeneration Of Quantum Dots, Rasin K. Ahmed, Long Zhao, Attila J. Mozer, Geoffrey D. Will, John M. Bell, Hongxia Wang

Australian Institute for Innovative Materials - Papers

Research on development of efficient passivation materials for high performance and stable quantum dot sensitized solar cells (QDSCs) is highly important. While ZnS is one of the most widely used passivation material in QDSCs, an alternative material based on ZnSe which was deposited on CdS/CdSe/TiO2 photoanode to form a semi-core/shell structure has been found to be more efficient in terms of reducing electron recombination in QDSCs in this work. It has been found that the solar cell efficiency was improved from 1.86% for ZnSe0 (without coating) to 3.99% using 2 layers of ZnSe coating (ZnSe2) deposited by successive ionic …

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Ray Optics Behavior Of Flux Avalanche Propagation In Superconducting Films, Pavlo Mikheenko, Tom H. Johansen, Supratim Chaudhuri, I J. Maasilta, Y Galperin Jan 2015

Ray Optics Behavior Of Flux Avalanche Propagation In Superconducting Films, Pavlo Mikheenko, Tom H. Johansen, Supratim Chaudhuri, I J. Maasilta, Y Galperin

Australian Institute for Innovative Materials - Papers

Experimental evidence of wave properties of dendritic flux avalanches in superconducting films is reported. Using magneto-optical imaging the propagation of dendrites across boundaries between a bare NbN film and areas coated by a Cu layer was visualized, and it was found that the propagation is refracted in full quantitative agreement with Snell's law. For the studied film of 170 nm thickness and a 0.9μm thick metal layer, the refractive index was close to n=1.4. The origin of the refraction is believed to be caused by the dendrites propagating as an electromagnetic shock wave, similar to damped modes …

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The Effect Of Surface Passivation On The Structure Of Sulphur-Rich Pbs Colloidal Quantum Dots For Photovoltaic Application, Victor Malgras, Andrew Nattestad, Yusuke Yamauchi, S X. Dou, Jung Ho Kim Jan 2015

The Effect Of Surface Passivation On The Structure Of Sulphur-Rich Pbs Colloidal Quantum Dots For Photovoltaic Application, Victor Malgras, Andrew Nattestad, Yusuke Yamauchi, S X. Dou, Jung Ho Kim

Australian Institute for Innovative Materials - Papers

The use of PbS colloidal quantum dots in photovoltaic devices is very promising because of their simple and low cost production processes and their unique properties, such as bandgap tunability and potential multiple exciton generation. Here we report the synthesis of PbS nanocrystals used for application in solar cells. The sulphur-rich nature of their surface appears to be caused by the exposure to ambient conditions. The use of methanol as medium during the ligand exchange process has a crucial role in the removal of native oleate ligands. Without proper ligand exchange, the unpassivated surface is subject to ambient hydroxylation leading …

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Soft, Flexible Freestanding Neural Stimulation And Recording Electrodes Fabricated From Reduced Graphene Oxide, Nicholas V. Apollo, Matias I. Maturana, Wei Tong, David A. X Nayagam, Mohit N. Shivdasani, Javad Foroughi, Gordon G. Wallace, Steven Prawer, Michael R. Ibbotson, David J. Garrett Jan 2015

Soft, Flexible Freestanding Neural Stimulation And Recording Electrodes Fabricated From Reduced Graphene Oxide, Nicholas V. Apollo, Matias I. Maturana, Wei Tong, David A. X Nayagam, Mohit N. Shivdasani, Javad Foroughi, Gordon G. Wallace, Steven Prawer, Michael R. Ibbotson, David J. Garrett

Australian Institute for Innovative Materials - Papers

There is an urgent need for conductive neural interfacing materials that exhibit mechanically compliant properties, while also retaining high strength and durability under physiological conditions. Currently, implantable electrode systems designed to stimulate and record neural activity are composed of rigid materials such as crystalline silicon and noble metals. While these materials are strong and chemically stable, their intrinsic stiffness and density induce glial scarring and eventual loss of electrode function in vivo. Conductive composites, such as polymers and hydrogels, have excellent electrochemical and mechanical properties, but are electrodeposited onto rigid and dense metallic substrates. In the work described here, strong …

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Dual Yolk-Shell Structure Of Carbon And Silica-Coated Silicon For High-Performance Lithium-Ion Batteries, L Y. Yang, H Z. Li, Jun Liu, Ziqi Sun, S S. Tang, M Lei Jan 2015

Dual Yolk-Shell Structure Of Carbon And Silica-Coated Silicon For High-Performance Lithium-Ion Batteries, L Y. Yang, H Z. Li, Jun Liu, Ziqi Sun, S S. Tang, M Lei

Australian Institute for Innovative Materials - Papers

Silicon batteries have attracted much attention in recent years due to their high theoretical capacity, although a rapid capacity fade is normally observed, attributed mainly to volume expansion during lithiation. Here, we report for the first time successful synthesis of Si/void/SiO2/void/C nanostructures. The synthesis strategy only involves selective etching of SiO2 in Si/SiO2/C structures with hydrofluoric acid solution. Compared with reported results, such novel structures include a hard SiO2-coated layer, a conductive carbon-coated layer, and two internal void spaces. In the structures, the carbon can enhance conductivity, the SiO2 layer has mechanically …

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Sodium-Difluoro(Oxalato)Borate (Nadfob): A New Electrolyte Salt For Na-Ion Batteries, Juner Chen, Zhenguo Huang, Caiyun Wang, Spencer H. Porter, Baofeng Wang, Wilford Lie, Hua-Kun Liu Jan 2015

Sodium-Difluoro(Oxalato)Borate (Nadfob): A New Electrolyte Salt For Na-Ion Batteries, Juner Chen, Zhenguo Huang, Caiyun Wang, Spencer H. Porter, Baofeng Wang, Wilford Lie, Hua-Kun Liu

Australian Institute for Innovative Materials - Papers

A new electrolyte salt, sodium-difluoro(oxalato)borate (NaDFOB), was synthesized and studied, which enables excellent reversible capacity and high rate capability when used in Na/Na0.44MnO2 half cells. NaDFOB has excellent compatibility with various common solvents used in Na-ion batteries, in strong contrast to the solvent dependent performances of NaClO4 and NaPF6. In addition, NaDFOB possesses good stability and generates no toxic or dangerous products when exposed to air and water. All these properties demonstrate that NaDFOB could be used to prepare high performance electrolytes for emerging Na-ion batteries.

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Sodium And Lithium Storage Properties Of Spray-Dried Molybdenum Disulfide-Graphene Hierarchical Microspheres, Sujith Kalluri, Kuok Hau Seng, Zaiping Guo, Aijun Du, Konstantin K. Konstantinov, Hua-Kun Liu, S X. Dou Jan 2015

Sodium And Lithium Storage Properties Of Spray-Dried Molybdenum Disulfide-Graphene Hierarchical Microspheres, Sujith Kalluri, Kuok Hau Seng, Zaiping Guo, Aijun Du, Konstantin K. Konstantinov, Hua-Kun Liu, S X. Dou

Australian Institute for Innovative Materials - Papers

Developing nano/micro-structures which can effectively upgrade the intriguing properties of electrode materials for energy storage devices is always a key research topic. Ultrathin nanosheets were proved to be one of the potential nanostructures due to their high specific surface area, good active contact areas and porous channels. Herein, we report a unique hierarchical micro-spherical morphology of well-stacked and completely miscible molybdenum disulfide (MoS2) nanosheets and graphene sheets, were successfully synthesized via a simple and industrial scale spray-drying technique to take the advantages of both MoS2 and graphene in terms of their high practical capacity values and high …

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Observation Of Topological Transition Of Fermi Surface From A Spindle Torus To A Torus In Bulk Rashba Spin-Split Bitecl, Feixiang Xiang, Xiaolin Wang, Menno Veldhorst, S X. Dou, Michael S. Fuhrer Jan 2015

Observation Of Topological Transition Of Fermi Surface From A Spindle Torus To A Torus In Bulk Rashba Spin-Split Bitecl, Feixiang Xiang, Xiaolin Wang, Menno Veldhorst, S X. Dou, Michael S. Fuhrer

Australian Institute for Innovative Materials - Papers

The recently observed large Rashba-type spin splitting in the BiTeX(X=I,Br,Cl) bulk states enables observation of the transition in Fermi surface topology from spindle torus to torus with varying the carrier density and offers an ideal platform for achieving practical spintronic applications and realizing nontrivial phenomena such as topological superconductivity and Majorana fermions. Here we use Shubnikov-de Haas oscillations to investigate the electronic structure of the bulk conduction band of BiTeCl single crystals with different carrier densities. We observe the topological transition of the Fermi surface (FS) from a spindle torus to a torus. The Landau-level fan diagram reveals the expected …

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Free-Standing Composite Hydrogel Films For Superior Volumetric Capacitance, Mahmoud Moussa, Zhiheng Zhao, Maher F. El-Kady, Hua-Kun Liu, Andrew Michelmore, Nobuyuki Kawashima, Peter Majewski, Jun Ma Jan 2015

Free-Standing Composite Hydrogel Films For Superior Volumetric Capacitance, Mahmoud Moussa, Zhiheng Zhao, Maher F. El-Kady, Hua-Kun Liu, Andrew Michelmore, Nobuyuki Kawashima, Peter Majewski, Jun Ma

Australian Institute for Innovative Materials - Papers

High volumetric capacitance is vital for the development of wearable and portable energy storage devices. We herein introduce a novel simple route for the fabrication of a highly porous, binder-free and free-standing polyaniline/reduced graphene oxide composite hydrogel (PANi/graphene hydrogel) as an electrode with a packing density of 1.02 g cm-3. PANi played critical roles in gelation, which include reduction, crosslinking, creation of pseudocapacitance and as a spacer preventing graphene sheets from stacking. The composite hydrogel film delivered a volumetric capacitance of 225.42 F cm-3 with a two-electrode supercapacitor configuration, which was enhanced to 592.96 F cm-3 …

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Characterisation Of Torsional Actuation In Highly Twisted Yarns And Fibres, Shazed Aziz, Sina Naficy, Javad Foroughi, Hugh Ralph Brown, Geoffrey M. Spinks Jan 2015

Characterisation Of Torsional Actuation In Highly Twisted Yarns And Fibres, Shazed Aziz, Sina Naficy, Javad Foroughi, Hugh Ralph Brown, Geoffrey M. Spinks

Australian Institute for Innovative Materials - Papers

Highly twisted oriented polymer fibres and carbon nanotube yarns show large scale torsional actuation from volume expansion that can be induced, for example, thermally or by electrochemical charging. When formed into spring-like coils, the torsional actuation within the fibre or yarn generates powerful tensile actuation per muscle weight. For further development of these coil actuators and for the practical application of torsional actuators, it is important to standardise methods for characterising both the torsional stroke (rotation) and torque generated. By analogy with tensile actuators, we here introduce a method to measure both the free stroke and blocked torque in a …

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Bio-Interface Of Conducting Polymer-Based Materials For Neuroregeneration, Bo Weng, Jianglin Diao, Qun Xu, Yuqing Liu, Changming Li, Ailing Ding, Jun Chen Jan 2015

Bio-Interface Of Conducting Polymer-Based Materials For Neuroregeneration, Bo Weng, Jianglin Diao, Qun Xu, Yuqing Liu, Changming Li, Ailing Ding, Jun Chen

Australian Institute for Innovative Materials - Papers

Nerve system diseases like Parkinson's disease, Huntington's disease, Alzheimer's disease, etc. seriously affect thousands of patients' lives every year, making them suffer from pains and inconvenience. Recently, bio-interfaces between neural cells/tissues and polymer based biomaterials attracted worldwide attention due to the ability of polymer based biomaterials to serve as nerve conduits, drug carriers and neurites guidance platform in neuroregeneration. The role that bio-interface played and the way it interacted with neural tissues and cells have been thoroughly investigated by the researchers. In this paper we mainly focus on reviewing the bio-interface between nerve tissues/cells and advanced functional biocompatible polymers, such …

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Super-Paramagnetic Particles Chemically Bound To Luminescent Diamond: Single Nano-Crystals Probed With Optically Detected Magnetic Resonance, Taras Plakhotnik, Haroon Aman, Shaohua Zhang, Zhen Li Jan 2015

Super-Paramagnetic Particles Chemically Bound To Luminescent Diamond: Single Nano-Crystals Probed With Optically Detected Magnetic Resonance, Taras Plakhotnik, Haroon Aman, Shaohua Zhang, Zhen Li

Australian Institute for Innovative Materials - Papers

We have synthesized novel composite particles made of single-domain nanomagnets chemically bound to nanocrystals of diamond. Optically detected magnetic resonance spectra of nitrogen-vacancy centers in diamond allowed us to estimate the magnetic field of the nanomagnets and to observe the saturation of their magnetization when an external field of a few tens of mT has been applied. The saturation effect is in agreement with the size of the domains measured using transmission electron microscopy and a simple model of magnetization.

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Functionalised Inherently Conducting Polymers As Low Biofouling Materials, Binbin Zhang, Alexander Nagle, Gordon G. Wallace, Timothy W. Hanks, Paul J. Molino Jan 2015

Functionalised Inherently Conducting Polymers As Low Biofouling Materials, Binbin Zhang, Alexander Nagle, Gordon G. Wallace, Timothy W. Hanks, Paul J. Molino

Australian Institute for Innovative Materials - Papers

Diatoms are a major component of microbial biofouling layers that develop on man-made surfaces placed in aquatic environments, resulting in significant economic and environmental impacts. This paper describes surface functionalisation of the inherently conducting polymers (ICPs) polypyrrole (PPy) and polyaniline (PANI) with poly(ethylene glycol) (PEG) and their efficacy as fouling resistant materials. Their ability to resist interactions with the model protein bovine serum albumin (BSA) was tested using a quartz crystal microbalance with dissipation monitoring (QCM-D). The capacity of the ICP-PEG materials to prevent settlement and colonisation of the fouling diatom Amphora coffeaeformis (Cleve) was also assayed. Variations were demonstrated …

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From Science Fiction To Reality: The Dawn Of The Biofabricator, Gordon G. Wallace Jan 2015

From Science Fiction To Reality: The Dawn Of The Biofabricator, Gordon G. Wallace

Australian Institute for Innovative Materials - Papers

[extract] Science is catching up to science fiction. Last year a paralysed man walked again after cell treatment bridged a gap in his spinal cord. Dozens of people have had bionic eyes implanted, and it may also be possible to augment them to see into the infra-red or ultra-violet. Amputees can control bionic limb implant with thoughts alone.

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Delocalized Surface State In Epitaxial Si(111) Film With Spontaneous √3 X √3 Superstructure, Jian Chen, Yi Du, Zhi Li, Wenbin Li, Baojie Feng, Jinlan Qiu, Peng Cheng, S X. Dou, Lan Chen, Ke-Hui Wu Jan 2015

Delocalized Surface State In Epitaxial Si(111) Film With Spontaneous √3 X √3 Superstructure, Jian Chen, Yi Du, Zhi Li, Wenbin Li, Baojie Feng, Jinlan Qiu, Peng Cheng, S X. Dou, Lan Chen, Ke-Hui Wu

Australian Institute for Innovative Materials - Papers

The " multilayer silicene" films were grown on Ag(111), with increasing thickness above 30 monolayers (ML). Scanning tunneling microscopy (STM) observations suggest that the " multilayer silicene" is indeed a bulk-like Si(111) film with a (√ 3 x √ 3)R30° honeycomb superstructure on surface. The possibility for formation of Si(111)(√ 3 x √ 3)R30°-Ag reconstruction on the surface can be distinctively ruled out by peeling off the surface layer with the STM tip. On this surface, delocalized surface state as well as linear energy-momentum dispersion was observed from quasiparticle interference patterns. Our results indicate that a bulklike silicon film with …

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Synthesis Of Different Cuo Nanostructures By A New Catalytic Template Method As Anode Materials For Lithium-Ion Batteries, Xiaohang Ma, Shuang Zeng, Bangkun Zou, Xin Liang, Jia-Ying Liao, Chunhua Chen Jan 2015

Synthesis Of Different Cuo Nanostructures By A New Catalytic Template Method As Anode Materials For Lithium-Ion Batteries, Xiaohang Ma, Shuang Zeng, Bangkun Zou, Xin Liang, Jia-Ying Liao, Chunhua Chen

Australian Institute for Innovative Materials - Papers

CuO powders composed of different rod-like clusters or dandelion-like nanospheres are prepared by a low-temperature thermal decomposition process of Cu(OH)2 precursors, which are obtained via a catalytic template method. A tentative mechanism is proposed to explain the formation and transformation of different Cu(OH)2 nanostructures. X-ray diffraction, thermogravimetric analysis, scanning electron microscopy, field-emission scanning electron microscopy, transmission electron microscopy, infrared spectra analysis, Brunauer-Emmett-Teller measurements, and galvanostatic cell cycling are employed to characterize the structures and electrochemical performance of these CuO samples. The results show that these CuO samples obtained after 500 °C calcination have a stable cycling performance with a reversible …

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N-Doped Pierced Graphene Microparticles As A Highly Active Electrocatalyst For Li-Air Batteries, Tao Yuan, Weimin Zhang, Wen-Ting Li, Chuantao Song, Yu-Shi He, Joselito M. Razal, Zi-Feng Ma, Jun Chen Jan 2015

N-Doped Pierced Graphene Microparticles As A Highly Active Electrocatalyst For Li-Air Batteries, Tao Yuan, Weimin Zhang, Wen-Ting Li, Chuantao Song, Yu-Shi He, Joselito M. Razal, Zi-Feng Ma, Jun Chen

Australian Institute for Innovative Materials - Papers

In this work we report a novel scalable strategy to prepare a lithium-air battery electrode from 3D N-doped pierced graphene microparticles (N-PGM) with highly active performance. This approach has combined the merits of spray drying technology and the hard template method. The pierced structured graphene microparticles were characterized physically and electrochemically. An x-ray photoelectron spectrometer and Raman spectra have revealed that the novel structure possesses a higher N-doping level than conventional graphene without the pierced structure. A much higher BET surface area was also achieved for the N-PGM than the conventional N-doped graphene microparticles (N-GM). Cyclic voltammetry indicated that the …

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Effects Of Cu Substitution For Sn On The Electrochemical Performance Of La0.7mg0.3al0.3mn0.4sn0.5−Xcuxni3.8 (X = 0-0.5) Alloys For Ni-Mh Batteries, Julio Cesar Serafim Casini, Zaiping Guo, Hua-Kun Liu, Rubens Nunes Faria, Hidetoshi Takiishi Jan 2015

Effects Of Cu Substitution For Sn On The Electrochemical Performance Of La0.7mg0.3al0.3mn0.4sn0.5−Xcuxni3.8 (X = 0-0.5) Alloys For Ni-Mh Batteries, Julio Cesar Serafim Casini, Zaiping Guo, Hua-Kun Liu, Rubens Nunes Faria, Hidetoshi Takiishi

Australian Institute for Innovative Materials - Papers

The effects of substitution of Cu for Sn on the electrochemical discharge capacity performance of La0.7Mg0.3Al0.3Mn0.4Sn0.5−xCuxNi3.8 (x = 0.0, 0.1, 0.2, 0.3, and 0.5) negative electrode alloys were investigated. Results indicate that increasing Cu content enhanced electrochemical behavior by increasing the maximum discharge capacity from 239.8 mA·h/g (x = 0) to 305.2 mA·h/g (x = 0.5), the discharge capacity retention at the 100th cycle from 78.0% (x = 0) to 81.8% (x = 0.5), and the high rate dischargeability (HRD) from 25.7% (x = 0) to 80.6% (x = 0.5).

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Pre-Differentiation Of Human Neural Stem Cells Into Gabaergic Neurons Prior To Transplant Results In Greater Repopulation Of The Damaged Brain And Accelerates Functional Recovery After Transient Ischemic Stroke, Hima C. S Abeysinghe, Laita Bokhari, Anita F. Quigley, Mahesh A. Choolani, Jerry Chan, Gregory J. Dusting, Jeremy M. Crook, Nao R. Kobayashi, Carli Roulston Jan 2015

Pre-Differentiation Of Human Neural Stem Cells Into Gabaergic Neurons Prior To Transplant Results In Greater Repopulation Of The Damaged Brain And Accelerates Functional Recovery After Transient Ischemic Stroke, Hima C. S Abeysinghe, Laita Bokhari, Anita F. Quigley, Mahesh A. Choolani, Jerry Chan, Gregory J. Dusting, Jeremy M. Crook, Nao R. Kobayashi, Carli Roulston

Australian Institute for Innovative Materials - Papers

2015 Abeysinghe et al. Introduction: Despite attempts to prevent brain injury during the hyperacute phase of stroke, most sufferers end up with significant neuronal loss and functional deficits. The use of cell-based therapies to recover the injured brain offers new hope. In the current study, we employed human neural stem cells (hNSCs) isolated from subventricular zone (SVZ), and directed their differentiation into GABAergic neurons followed by transplantation to ischemic brain. Methods: Pre-differentiated GABAergic neurons, undifferentiated SVZ-hNSCs or media alone were stereotaxically transplanted into the rat brain (n=7/group) 7 days after endothelin-1 induced stroke. Neurological outcome was assessed by neurological deficit …

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Enhanced Electron Lifetimes In Dye-Sensitized Solar Cells Using A Di-Chromophoric Porphyrin: The Utility Of Inter-Molecular Forces, Long Zhao, Pawel W. Wagner, Holly Van Der Salm, Keith C. Gordon, Shogo Mori, Attila J. Mozer Jan 2015

Enhanced Electron Lifetimes In Dye-Sensitized Solar Cells Using A Di-Chromophoric Porphyrin: The Utility Of Inter-Molecular Forces, Long Zhao, Pawel W. Wagner, Holly Van Der Salm, Keith C. Gordon, Shogo Mori, Attila J. Mozer

Australian Institute for Innovative Materials - Papers

Electron lifetimes in dye-sensitized solar cells employing a porphyrin dye, an organic dye, a 1:1 mixture of the two dyes and a di-chromophoric dye design consisting of the two dyes using a non-conjugated linker were measured, suggesting that the dispersion force of the organic dyes has a significant detrimental effect on the electron lifetime and that the di-chromophoric design can be utilized to control the effect of the dispersion force.

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Harvesting Temperature Fluctuations As Electrical Energy Using Torsional And Tensile Polymer Muscles, Shi Hyeong Kim, Marcio Dias Lima, Mikhail E. Kozlov, Carter S. Haines, Geoffrey M. Spinks, Shazed Aziz, Changsoon Choi, Hyeon Jun Sim, Xuemin Wang, Hongbing Lu, Dong Qian, John D. W Madden, Ray H. Baughman, Seon Jeong Kim Jan 2015

Harvesting Temperature Fluctuations As Electrical Energy Using Torsional And Tensile Polymer Muscles, Shi Hyeong Kim, Marcio Dias Lima, Mikhail E. Kozlov, Carter S. Haines, Geoffrey M. Spinks, Shazed Aziz, Changsoon Choi, Hyeon Jun Sim, Xuemin Wang, Hongbing Lu, Dong Qian, John D. W Madden, Ray H. Baughman, Seon Jeong Kim

Australian Institute for Innovative Materials - Papers

Diverse means have been deployed for harvesting electrical energy from mechanical actuation produced by low-grade waste heat, but cycle rate, energy-per-cycle, device size and weight, or cost have limited applications. We report the electromagnetic harvesting of thermal energy as electrical energy using thermally powered torsional and tensile artificial muscles made from inexpensive polymer fibers used for fishing line and sewing thread. We show that a coiled 27 μm-diameter nylon muscle fiber can be driven by 16.7 °C air temperature fluctuations to spin a magnetic rotor to a peak torsional rotation speed of 70 000 rpm for over 300 000 heating-cooling …

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Harvesting Temperature Fluctuations As Electrical Energy Using Torsional And Tensile Polymer Muscles, Shi Hyeong Kim, Marcio Dias Lima, Mikhail E. Kozlov, Carter S. Haines, Geoffrey M. Spinks, Shazed Aziz, Changsoon Choi, Hyeon Jun Sim, Xuemin Wang, Hongbing Lu, Dong Qian, John D. W Madden, Ray H. Baughman, Seon Jeong Kim Jan 2015

Harvesting Temperature Fluctuations As Electrical Energy Using Torsional And Tensile Polymer Muscles, Shi Hyeong Kim, Marcio Dias Lima, Mikhail E. Kozlov, Carter S. Haines, Geoffrey M. Spinks, Shazed Aziz, Changsoon Choi, Hyeon Jun Sim, Xuemin Wang, Hongbing Lu, Dong Qian, John D. W Madden, Ray H. Baughman, Seon Jeong Kim

Australian Institute for Innovative Materials - Papers

Diverse means have been deployed for harvesting electrical energy from mechanical actuation produced by low-grade waste heat, but cycle rate, energy-per-cycle, device size and weight, or cost have limited applications. We report the electromagnetic harvesting of thermal energy as electrical energy using thermally powered torsional and tensile artificial muscles made from inexpensive polymer fibers used for fishing line and sewing thread. We show that a coiled 27 μm-diameter nylon muscle fiber can be driven by 16.7 °C air temperature fluctuations to spin a magnetic rotor to a peak torsional rotation speed of 70 000 rpm for over 300 000 heating-cooling …

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A Comparison Of Chemical And Electrochemical Synthesis Of Pedot: Dextran Sulphate For Bio-Application, Leo Stevens, David G. Harman, Kerry J. Gilmore, Marc In Het Panhuis, Gordon G. Wallace Jan 2015

A Comparison Of Chemical And Electrochemical Synthesis Of Pedot: Dextran Sulphate For Bio-Application, Leo Stevens, David G. Harman, Kerry J. Gilmore, Marc In Het Panhuis, Gordon G. Wallace

Australian Institute for Innovative Materials - Papers

Poly(3,4-ethylenedioxythiophene) (PEDOT) is an organic conducting polymer that has been the focus of significant research over the last decade, in both energy and biological applications. Most commonly, PEDOT is doped by the artificial polymer polystyrene sulfonate due to the excellent electrical characteristics yielded by this pairing. The biopolymer dextran sulphate (DS) has been recently reported as a promising alternative to PEDOT: PSS for biological application, having electrical properties rivaling PEDOT: PSS, complimented by the potential bioactivity of the polysaccharide. In this work we compared chemical and electrochemical polymerisations of PEDOT: DS in terms of their impact on the electrical, morphological …

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