News on China's scientific and technological development.

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Re: Microvast ultrafast charge station for electric buses begins operation in Chongqi

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It is learned from the Chinese Academy of Sciences on October 27, 2011 that the deep UV solid state laser sources equipment development project worth an investment of RMB 180 million has proceeded smoothly since its launch in 2008.

The project has produced 8 cutting-edge instruments, including DUV laser photochemical reaction apparatus, DUV laser photoluminescence spectroscopy, spin and angle resolved DUV laser photoelectron spectroscopy, in-situ time and space resolved DUV laser tunneling spectroscopy, and flight time and energy analyzer based angle-resolved DUV laser photoelectron spectroscopy.

In addition, a variable DUV photon energy photoelectron spectroscopy has been basically completed of its development, and entered the test process. Some of the instruments have found applications in cutting-edge scientific researches, demonstrating their laudable performance.

Apart from the eight major instruments, researchers also established a range of platforms to develop DUV nonlinear crystals and devices, DUV solid-state laser apparatus, and associated applications.

Core components, such as DUV crystals and components, have been produced at a small scale, which laid groundwork for the follow-up development and associated commercial applications.
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Re: Microvast ultrafast charge station for electric buses begins operation in Chongqi

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Scientists from Chinese Academy of Sciences Institute of Metal Research, the Technical University of Hamburg, and the Helmholtz Center Geesthacht have developed a magic material that can change its strength, virtually at the touch of a button, from friable hard to elastic soft. The property can be changed by electrical signals. The finding was published in the recent issue of Science.

Researchers put precious metals such as gold or platinum into an acid solution for corrosion, allowing tiny ducts and pores being formed in the materials. Then, they poured nano-structured materials into the framework made up of minute ducts and pores, and instilled conductive liquid (such as salt solution or weak acid solution) into every tiny pores, making it a hybrid of metal and liquid.

Researchers called it the union of metal and water which, when triggered by an electric signal, enables the properties of the material to change at the touch of a button. The effect can be a strengthened or weakened atomic bonding in the surface of the metal when extra electrons are added to or withdrawn from the surface atoms.

The strength of the material can be as much as doubled when required. Alternatively, the material can be switched to a state which is weaker, but more damage tolerant, energy-absorbing, and malleable.

Researchers said the novel material can switch back and forth from hard to soft. It generates electric signals either spontaneously or selectively, so as to strengthen the matter in the region having a local stress. Damages, for instance, in the form of cracks, could thereby be prevented or even healed.
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Re: Microvast ultrafast charge station for electric buses begins operation in Chongqi

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A nuclear safety supervision project was recently kicked off at the Nuclear and Radiation Safety Center, part of the Ministry of Environmental Protection, to build a Full Scope Simulator, based on a range of pre-phase efforts, including feasibility study, approval, and bidding, that had been completed in the past two years.

As the first project staged for the national nuclear safety supervision, the simulator will be developed by China Nuclear Power Simulation Corporation under China Guangdong Nuclear Power Group.

The system is a platform designed to simulate a range of nuclear safety operations, including normal operation, design benchmark accident, and beyond benchmark accident (serious accident) for the advanced second-generation pressurized water reactor models that are dominating the existing Chinese nuclear power plants.

The simulator is able to handle nuclear accidents in line with the operations on the ground. It not only works on most of the functionalities simulated by a regular nuclear power plant, but also possesses special capabilities for safety review and check.

Comparing with the Full Scope Simulators in operation in a few developed countries, the one developed by China will reach an internationally advanced level in overall technical level, simulation precision, and simulation range, thanks to the application of a range of advanced modules, including simulation support, reactor thermal-hydraulic calculation, and serious accident analysis.

Experts said that the Full Scope Simulator will fill up the nuclear safety voids that may threaten the safe operation of Chinese nuclear power plants, greatly enhancing the technical capability of nuclear safety review, desirable for raising the reliability of Chinese nuclear power plant and associated nuclear safety supervision.

National nuclear safety regulatory authorities will develop the Full Scope Simulators tailored to other nuclear reactor models, based on the successful implementation of the project, in a bid to establish a Full Scope Simulator network that covers all the nuclear power reactor models in the country.
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According to a plan, the Beijing Computing Center, built by DAWNING, will have an enhanced computing capability for 200 trillion floating-point operations per second, thanks to a scaled up capacity for the industrial cloud platform originally designed to achieve 50 trillion floating-point operations per second.

The new platform will provide the state-of-the-art hardware and software for the government and small and medium-sized enterprises, covering the areas of industry, commerce, transportation, energy, environmental protection, banking, taxation, and social affairs.

The Center is built to reduce the operating costs of government agencies and small and medium-sized enterprises, and enhance industrial R&D capabilities, making DAWNING’s "city cloud network" dream a realty on the ground.

Clusnap, a hardware product developed by DAWNING to meet the needs of high performance computing market, provides users with fault tolerance support for major computing tasks. In addition, DAWNING made the debut of its new generation high-density blade product TC4600, desirable for high performance, scale-up, and on-demand configurations.
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A plan, jointly prepared by the Ministry of Industry and Information Technology, the National Development and Reform Commission, and the Ministry of Science and Technology to develop an advanced materials industry during the 12th Five-year period, was recently released to the public.

The plan says China will secure RMB 2 trillion worth of advanced materials output in 2015, enjoying an annual growth exceeding 25%.
The Plan adds that major advanced materials producers will have a raised R&D expenditure to 5% as a proportion of their total sales revenue.

China will establish new platforms for advanced materials R&D and associated public services, fostering 10 leading enterprises with enhanced innovation capability, core competitiveness, and a sales revenue exceeding RMB 15 billion, nurturing 20 backbone enterprises with a sales revenue exceeding RMB 5 billion, and establishing a range of advanced materials industry bases and clusters with clearly defined businesses, supporting facilities, and an annual output worth RMB 30 billion or more.

Meanwhile, China will raise the support to advanced material products to a level of 70%, and the support to key advanced materials to 50%, realizing the scale production and commercial application of carbon fiber, titanium alloy, corrosion resistant steel, advanced energy storage materials, semiconductor materials, membrane materials among others.

Efforts will also be made to diffuse the application of 30 key advanced materials through a range of demonstration projects.
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According to a polar expedition report recently released by the State Oceanic Administration, China has in 2011 completed 61 expedition missions on the two poles with fruitful results. 37 scientific missions were made on the South Pole, and 24 on the North Pole.

Statistics show that in 2011, 226 Chinese scientists attended Antarctic expeditions, completed 37 scientific missions. Scientists at China's Kunlun Station in the South Pole consolidated the deep ice core drilling site, installed advanced astronomical observation equipment, and made a range of multi-disciplinary investigations into the snow, meteorology, and environment on the Pole.

The Great Wall Station carried out numerous scientific observations in its vicinities, including seismic observation, ecological environment monitoring, organic pollutants monitoring, lichens study, marine biological observation, and ionospheric observation, in addition to the routine meteorological observation.

Apart from the routine study of upper air atmospheric physics, geomagnetism, gravity tide, Global Positioning System, and regular meteorological and ozone observation, the Zhongshan Station launched a range of new missions on fish diversity, tide gauge reference calibration, the Southeast Pole geological survey, remote sensing among others.

The 17-day Southern Ocean expedition covered a range of 1,447 nautical miles, with 64 station operations involving physical oceanography, marine biology, marine chemistry, and atmospheric chemistry.

83 Chinese scientists participated in the annual inspection of the Yellow River Station on the North Pole, completed 24 scientific missions on space physics, biology, ecological environment variation, glaciers, and mapping. Meanwhile, efforts were made to prepare policies and standards for polar expeditions.
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News on China's scientific and technological development

Sandwich-like MnO2/Mn/MnO2 nanotube array shows high supercapacitive performance
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28 June 2012

Researchers at Sun Yat-sen University in Guangzhou, China designed and synthesized novel MnO2/Mn/MnO2 sandwich-like nanotube arrays for supercapacitors. In testing reported in the ACS journal Nano Letters, the hybrid MnO2/Mn/MnO2 sandwich-like nanotube arrays exhibited an excellent rate capability with a high specific energy of 45 Wh/kg and specific power of 23 kW/kg and excellent long-term cycling stability (less 5% loss of the maximum specific capacitance after 3,000 cycles).

The high specific capacitance and charge−discharge rates offered by the sandwich-like nanotube arrays make them promising candidates for supercapacitor electrodes, combining high-energy densities with high levels of power delivery, the researchers suggest.

Supercapacitors—also called ultracapacitors or electrochemical capacitors (ECs)—offer high power density, fast charging−discharging rate, and excellent cycle stability. Various materials, including carbon materials, transition-metal oxides, conducting polymers, and hybrid composites have been widely studied as electrodes for these devices, the team notes.
Li2
Left. Ragone plots (energy density vs power density): (1) MnO2/Mn/MnO2 SNTAs and (2) MnO2 NTAs. Right. Comparison of cycling performance of (1) and (2) for 3000 cycles at 1.5 A/g. (The specific mass loading is 0.32 mg/cm2). Credit: ACS, Li et al.Click to enlarge.

There has been extensive interest in developing the inexpensive transition-metal oxide electrodes, such as MnO2, Co3O4, NiO, VOx, and TiO2 for supercapacitors. MnO2 is an attractive electrode material owing to its high theoretical specific capacitance, low cost, natural abundance, and environmental friendliness. However, poor electrical conductivity (10−5∼10−6 S/cm) remains a major challenge and limits rate capability for high power performance.

Recent work has explored possible solutions such as hybrid composite nanostructures in which thin MnO2 layers were loaded on highly conductive materials such as metal, conducting polymer, carbon nanotube, or graphene for enhanced performance.

The enhanced performance was also obtained by coating MnO2 onto SnO2 nanowires, ZnO nanorods, and Zn2SnO4 nanowires. In all of the above cases, MnO2 is of relatively low weight fraction and usually has excellent rate and cycling performance; however, the energy and power densities of electrodes are sacrificed.

To realize the practical applications for high-performance ECs that needs large capacitance and high energy storage, here we design and synthesize novel MnO2/Mn/MnO2 sandwich-structured nanotube arrays (SNTAs) with high MnO2 weight fraction...The aligned SNTAs represent a new prime example of materials with a well-defined pore structure.
—Li et al.

The team outlined four primary reasons for taking this approach:

The middle crystalline metal Mn layer in the sandwich provides electron “superhighways”—highly conductive cores—for charge storage and delivery, which overcomes the key weakness (the limited electric conductivity) of MnO2.

The MnO2/Mn/MnO2 SNTAs relax the transport of ions because of the hollow nanostructures. In addition, the double thin layers of MnO2 in SNTAs would enable fast, reversible Faradaic reactions and provide short ion diffusion paths.

The SNTAs with double MnO2 shells would obviously enhance the utilization rate of MnO2 material because of anisotropic morphology, large specific surface area, and hollow nanostructures.

The SNTAs directly growing on conductive substrate have an excellent electrical contact with current collectors, and this would let each MnO2/Mn/MnO2 nanotube effectively participate in electrochemical reactions with almost no “dead” volume.

The maximum specific capacitances of 937 F/g at a scan rate of 5 mV/s by cyclic voltammetry (CV) and 955 F/g at a current density of 1.5 A/g by chronopotentiometry were achieved for the MnO2/Mn/MnO2 sandwich-like nanotube arrays in solution of 1.0 M Na2SO4.

Resources

Qi Li, Zi-Long Wang, Gao-Ren Li, Rui Guo, Liang-Xin Ding, and Ye-Xiang Tong (2012) Design and Synthesis of MnO2/Mn/MnO2 Sandwich-Structured Nanotube Arrays with High Supercapacitive Performance for Electrochemical Energy Storage. Nano Letters doi: 10.1021/nl301748m


Comments

This sounds like a marriage made in heaven with fuel cells.
2-3 kgs of these and the surge in energy needed for braking is covered, as is regenerative braking.

Posted by: Davemart | June 28, 2012 at 04:39 AM

S/be 'energy needed for acceleration'

Posted by: Davemart | June 28, 2012 at 04:43 AM

As with other supercapacitors we've been reading about lately, the performance is there and now it is just a question of cost.

Posted by: Engineer-Poet | June 28, 2012 at 06:22 AM

I have no idea what the final costs will be, but the materials at least are cheap enough.

Posted by: Davemart | June 28, 2012 at 06:26 AM

Wait, asides of the beauty of the results that makes these supercapacitors battery like, how do they grow the nanotube ? with some CVD or epitaxy then this won't be used for anything else than powering a cell phone at very best. Nanotube are extensively studied but there is still no manufacturing tool to make them in volume as far as I am informed

Posted by: Treehugger | June 28, 2012 at 07:03 AM

Yes DM ... it would be an ideal companion for FC equipped vehicles or for BEVs equipped with very high energy density batteries.

Cost, like for most new technologies, will come down with mass production in the right place.

Posted by: HarveyD | June 28, 2012 at 07:23 AM
 
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