Low-temperature nano-material preparation disperser
The whole process of preparation and dispersion is performed in a 4-6℃ low-temperature circulating water bath, preventing re-aggregation due to temperature rise effectively.
Freely adjustable within 4-80℃, possible to change sample liquidity through temperature rise, convenient for preparation and dispersion
No ground zircon powder is blended into the feed solution during preparation and dispersion, ensuring that the composition and color of the nano-material are pure.
A low-temperature nano-material preparation disperser series suitable for scientific research and continuous production
Purposes: |
The whole process of sample feeding, preparation, dispersion and sample release is performed in a low-temperature water bath, preventing re-aggregation due to the Brownian motion at high temperatures. Suitable for use by colleges, universities, research institutes, chemical, dyeing and weaving, new material, new energy source, and biomedicine companies, etc. Preparation and dispersion of graphene, nano-carbon tubes and carbon powder; .Preparation and dispersion of high-molecular nano-materials; .Preparation and dispersion of nano-coatings; .Preparation and dispersion of nano-battery electrolytes and slurries; .Preparation and dispersion of nano-inks; .Preparation and dispersion of nano-dyes; .Preparation and dispersion of nano-paints; .Preparation and dispersion of nano-drugs; .Other…… |
Features: |
.Exclusive dispersers in the world in which the whole process of sample feeding, preparation, dispersion and sample release is performed in a 4-6℃ low-temperature circulating water bath, preventing the re-aggregation of nano-particles after dispersion effectively. .Freely adjustable within 4-80℃, possible to change sample liquidity through temperature rise, convenient for preparation and dispersion .World-class pressure rating of (207MPa), largely meeting user requirements .Min. sample treatment capacity: JN-Mini (3ml), JN-02FS (5ml) .High resistance to organic solutions .Preparation and dispersion valve base 100% made of diamond, with wear resistance nearly 100 times that of porcelain or tungsten carbide .Preparation and dispersion valve made from diamond, without ground powder to be blended into the feed solution, ensuring pure composition and color of the raw material .Hydraulic main power, capable of free shutdown, starting and pause under high pressures while maintaining pressure .Capable of no-load operation, being vented by just pressing with a stainless steel needle gently after charge without changing pressure (patented technique) .Food- and pharmaceutical-grade advanced pollution-free materials, In-situ cleaning and disinfection .High-strength full-stainless steel ultra-high pressure pump .Physical disruption, eliminating chemical residue .All preparation and dispersion containers and pipes made of 316L stainless steel, with excellent pollution and corrosion resistance .Saving also as an agile safety valve with excellent safety .Easy pressure regulation without handling the spring hard .Metal sealing mainly, without rubber seals and consumables .Independent intellectual property rights and core techniques, with ease of maintenance by widespread engineers |
Principal
The sample must run through the tight diamond preparation and dispersion valve, and withstand the three homogenization effects of shearing, cavitation and collision arising from the instantaneous release of ultra-high pressure energy through a slit. In addition, the sample is always cooled by the low-temperature water bath, so that all treated sample particles are nanominiaturized without aggregating easily. This unit is freely adjustable within 4-80℃, possible to change sample liquidity through temperature rise, convenient for preparation and dispersion.
Homogenized object soaked in a circulating water bath
Selected application samples
♦ Compound nano-coating dispersion effect 100nm
♦ Average grain size of nano-emulsified liposomes 53.68nm, down to 28.2nm (Figures 3 and 4)
♦ Nano-pulp (Figure 5)
♦ Conductive high-molecular material (Figure 6)
♦ Dyeing and weaving effect (Figure 7)
Figure 1 Cold field scanning electron microscope, 100,000 times; material: nano-chromium, nano-titanium, nano-copper, nano-carbon tube, and other compounds; original grain size: 40 nm | Figure 2 Cold field scanning electron microscope, 50,000 times; material: nano-chromium, nano-titanium, nano-copper, nano-carbon tube, and other compounds; original grain size: 40 nm | Figure 3 Comparison of liposomes before and after nano-emulsification | Figure 4 Grain size analysis chart of nano-emulsified liposomes |
Figure 5 Nano-pulp | Figure 6 High-molecular material | Figure 7 Dyeing and weaving effect |
Additional features of JN-10FS, JN-30FS and JN-100FS (touch screen and PLC control): | |
. Freely performing various operations with gentle touch only; .Saving historical data (for one week), consistent with the GMP standard; .Alarm reminding and over-warning line self-protection to prevent operational errors; .Digitally displayed system and operating pressures; .Saving historical alarm records for the convenience of inquiry and repair; | .Displaying the operating pressure curve in real time; .Saving records for one week; .Password control for operation authority; .Emergency stop switch that can cut off the power in case of an emergency to protect the unit and the operator |
suitable for experimental platform
Key technical parameters: | |||||
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Pressure | 0-207MPa (2070bar or 30,000psi) | ||||
Flow rate under max. pressure | 2.1 L/hr (35ml/min) | ||||
Min. sample treatment capacity | 5ml | ||||
Power supply | 220V, main unit 1.5kW + cooling 0.75kW | ||||
Low-temperature circulating water bath | Whole preparation and dispersion process completed in a 4-6℃ circulating water bath | ||||
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Specifications: | |||||
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Item | Qty. | Power/ voltage (kW/V) | External dimensions (mm) | ||
Length (L) | Width (W) | Height (H) | |||
Main unit | 1 | 1.5/220 | 607 | 555 | 880 |
Cooling system | 1 | 0.75/220 | 525 | 635 | 870 |
packed with plywood case
1 year warranty, lifetime service available for machines sold out.
Guangzhou Juneng Nano&Bio Technology Co., Ltd. is a high-tech enterprise founded by returned students in 2005, and became one of the first resident enterprises of Guangzhou International Biotech Island in July 2011. Since foundation, we have been developing and manufacturing 4~6℃ low-temperature water bath ultra-high pressure continuous flow cell disrupters, and 4~80℃ constant temperature water bath nano-material preparation dispersers independently to meet the demand for efficient cell disruption and nano homogenization in such sectors as biotechnology, pharmaceutics, biological energy, food, cosmetics and fine chemical, enable users to benefit from new technologies, and fill up domestic gaps in the such fields as biotechnology and nano homogenization.
Events:
♦ Certified as a high and new technology enterprise by the state consecutively from December 2008 to date
♦ Admitted to the National Technical Innovation Fund, and the Guangzhou Science and Technology Fund in 2007
♦ Project under the National Technical Innovation Fund well accepted in May 2011
♦ Certificate of High and New Technology Product of Guangdong Province received in March 2013
♦ Silver Prize for Independent Innovation of China Instrument Manufacturers’ Association won in March 2013
♦ Certified to the ISO9001:2008 Quality Management System in July 2013
♦ Two national patents for invention obtained during 2008-2012
♦ 15 utility model patents and 3 design patents obtained
♦ “JNBIO” registered trademark awarded
♦ A listed compay Over-The-Counter Market with stock code 836439 in 2016
a corner of our lab
ISO9001 certificate
CE certificate
China