Nano High-Tech

2004 Cooperation with Tsinghua University and becomes the first domestic enterprise working on the industrialization of silica aerogels. 

2006 Set up of the first domestic production line of silica aerogel powders. It passed the authentication of Zhejiang Science and Technology Bureau. A committee made up of 

2006 Set up of the first Chinese enterprise research center of silica aerogels. 

2007 Cooperation with Tongji University and set up of Tongji Nano High-tech Combined Instimte. 

2007 Command the key technology of producing silica aerogel composite materials, the property of which is at international advanced level. 

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Figure 40.1. Office building of Nano High-tech.

The Tongji Nano High-tech Combined Institute is upgraded to be a provincial research center. Meanwhile, Nano High-tech exploits a series of silica aerogel products. 

Besides silica aerogels, Nano High-tech also produces organic aerogels, carbon, alumina and titania aerogels. 

Nano High-tech will expand the application of aerogels from thermal insulation to water treatment and air purification in the future. 

In conclusion, the potential of soluble, nanosized metallodendrimers as catalysts in homogeneous reactions is well-consolidated. Future applications of these species are foreseen in high-tech nanotechnology applications in the fields of nano- and microreactors, cascade catalysis, and catalytic biomonitoring and biosensing. In this respect, the recent use of noncovalent strategies for the construction of multicomponent catalytic assemblies, and the use of biomacromolecules within dendritic structures is intriguing [60-62,92,93]. 

The experimental BDEs in ions, clusters, hydrogen-bonded species, surface-bonded, and van der Waals complexes are essential data for catalysis, high-tech, nano-materials, bioengineering, environmental, and space science however, these valuable data are dispersed throughout a variety of publications. 

Carbon nano-tube Carbon nano-tube were constmcted at Saigon High Tech Park (Hochiminh city, Vietnam) tmder the supervision of Prof Nguyen KC (confidential protocol). We also develop the Extraction buffer (EB) for working with the carbon nano-tube to cany out the DNA/RNA extraction of the tested samples (the formrrla of EB is corrli-dential). 

The project was funded by Nam Khoa Co., Ltd., Pty. under the RD fund and by the Saigon High Tech Park. All carbon nano-tube procedure and final products were provided by Dr. Nguyen KC. Samples were collected and delivered by Nam Khoa Co., Ltd., Pty. All technical work were performed at Nam Khoa Co., Ltd., Pty. 

FIGURE 14.4 Chromatograms of high speed isocratic capillary LC elution of three components. Column 15 cm x 320 /im inner diameter, 5 /im C18 particles. Column head pressure 6800 psi at 48 /(L/min flow rate. System XTS two-dimensional splitless ultrahigh pressure nano UHPLC, Micro-Tech Scientific, Vista, California. 

M. Saremi, Z. Valefi, N. Abaeian, Hot corrosion, high temperature oxidation and thermal shock behavior of nano-agglomerated YSZ-almnina composite coatings. Surf Coat. Tech. 221 (2013)... 

Fibers are the basic element of nonwovens world consumption of fibers in nonwoven production is 63% polypropylene, 23% polyester, 8% viscose rayon, 2% acrylic, 1.5% polyamide and 3% other high performance fibers [8]. The data in Fig. 10.4 shows the market share of important polymers and fibers in the nonwovens market. Manufacturers of nonwoven products can make use of almost any kind of fibers. These include traditional textile fibers, as well as recently developed hi-tech fibers. Future advancements will be in bicomponent fibers, micro-fibers (split bicomponent fibers or meltblown nonwovens), nano-fibers, biodegradable fibers, super-absorbent fibers and high performance fibers. The selection of raw fibers, to a considerable degree, determines the properties of the final nonwoven products. The selection of fibers also depends on customer requirement, cost, processability, changes of properties because of web formation and consolidation. The fibers can be in the form of filament, staple fiber or even yam. 

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