MicroSpin™ Microfluidic Electrospinning Machine
MicroSpin™ Microfluidic Electrospinning Machine
Product Detail
Product Overview
1) Main Unit
Photo of MicroSpin™ Microfluidic Electrospinning Machine
Product Features
The MicroSpin™ Microfluidic Electrospinning Machine integrates the principles of electrospinning and microfluidic spinning, using diversified microfluidic chips as its core. Through precise digital microfluidic control, a newly designed electrospinning-microfluidic integrated machine has been developed. This system combines the capability of electrospinning to produce ultrafine fibers with the ability of microfluidics to create highly ordered fibers.
By employing precise digital microfluidic control, it can achieve multi-level structures and multi-composition hybrid fibers, while also retaining the conventional function of preparing ultrafine fibers with electrospinning. This versatility allows the system to serve multiple purposes. Additionally, it enables in-situ fiber chemical synthesis through microfluidic chips, incorporating both physical and chemical processes into the spinning operation.
Key Features
- Multi-axis system with precise control.
- Supports a wide range of spinnable materials.
- Enables ordered alignment of fiber arrays as required.
- Precision advancement mechanism ensures uniform fiber formation.
- Controllable fiber diameter and array structure.
- Multiple receiving devices for flexible and diverse applications.
Product Specifications
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Product Name |
MicroSpin™ Microfluidic Electrospinning Machine |
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SKU# |
EMSES001 |
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Jenners Microfluidic Pump |
Selectable syringe size range (mL) |
0.5 - 200 |
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Injection speed range |
0.1μl/h - 681.73ml/min |
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High-Voltage Spinning Power Supply |
0~50KV, digital display, overcurrent protection, overvoltage protection |
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Chip |
Diverse designs of internal channel shapes and configurations |
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Slider Sroke |
X 200mm, Y 200mm, Z 100mm |
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Spinning Receiver |
Three-Axis System: X, Y, Z axes can operate simultaneously |
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Control System |
Industrial-Grade Motion Control System: Ensures long-term stable operation, computer-controlled for various operation modes |
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Receiving Device |
Microfluidic spinning receiver, gas spray continuous winding receiving device. Capable of producing flat films with dimensions no smaller than 300mm*800mm. Multiple receiving methods are available for selection. |
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Moving Speed |
0~500 mm/s Position repeatability ±0.01mm |
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Thermal Curing System |
Operation Power: 200W |
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Polymer Temperature Control System |
Temperature control range: RT~ 100 ℃ Accuracy: ± 1 ℃ |
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Chamber Temp and Humidity Control System |
Humidity Accuracy : ±3% RH Temperature Accuracy: ±0.5℃ |
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Safety System |
Insulating materials ensure cleanliness and safety, equipped with door switch sensors and emergency stop buttons |
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Power Supply |
AC: 220V±10%, 50Hz |
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Operating Environment |
Room temperature and pressure under static conditions |
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Rated Power |
1000W |
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Configuration Description |
Includes 1 main machine, 1 Microfluidic Pump, 1 Microfluidic Chip, 1 Microfluidic Needle, 1 High Voltage Power Supply and 1 Electrically Controlled Platform. |
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Application
- Pharmaceutical: Drug carriers, hemostatic materials, high-performance masks
- Tissue Engineering: Artificial blood vessels, artificial cartilage tissue; artificial skin
- Filtration Materials: Air filters, water purification filters, filter cartridges
- Cosmetics: Face masks, skin cleansers
- Flexible Wearables: Liquid crystal displays, light-emitting OLEDs, flexible screens
- Nanomaterials: Quantum dot fibers, photonic crystal fibers; monodisperse microspheres
Disclaimer: ACS Material, LLC believes that the information in this website is accurate and represents the best and most current information available to us. ACS Material makes no representations or warranties either express or implied, regarding the suitability of the material for any purpose or the accuracy of the information contained within this document. Accordingly, ACS Material will not be responsible for damages resulting from use of or reliance upon this information.