微陣列芯片制作打印機是全球的微陣列芯片制作儀器，是專業(yè)為蛋白質(zhì)芯片或DNA芯片，微陣列芯片制作打印機器是為基因芯片等微陣列芯片而設(shè)計的，器在全球各大實驗室已經(jīng)安裝使用的設(shè)備超過500多臺。
全自動化和可編程，采用了先進的線性伺服電機技術(shù)，在X，Y方向?qū)崿F(xiàn)高達500nm的分辨率，在Z軸方向?qū)崿F(xiàn)250nm分辨率，并具有納米尺度的定位精度。

具有高精度濕度和溫度控制系統(tǒng)，具有方便用戶操作的軟件，可以全面和高效地打印微陣列和用于分子生物學研究和診斷應(yīng)用的各種芯片。

具有除濕功能可供用戶選擇配備，除濕功能可讓用戶在潮濕環(huán)境下操作。
可打印高達384個微孔的微孔板，zui多可以打印60個標準玻璃芯片底片。也可以打印各種微孔板,1 X3 的芯片和其他任何微流體生物芯片。納米打印機系統(tǒng)提供先進的微孔板，位于微孔板下的 Peltier將其進行冷卻。

兼容任何PIN生物材料：DNA，蛋白質(zhì)，抗體，小分子，肽核酸（PNA），碳水化合物，以及許多其他樣品。這些引腳基于由美國6101946保護 ArrayIt專有工程和表面化學的技術(shù);這樣的設(shè)計使打印高效，經(jīng)過數(shù)百萬的印刷周期依然耐用。 BioTray根據(jù)研究結(jié)果提供了3種主要的PIN材料。有兩種型號：納米打印機LM60有384個微孔，zui多可以打印60個標準玻璃芯片底片；納米打印機LM210有384個微孔，zui多可以打印210個標準玻璃芯片底片。LM60和LM210對可以打印一種特殊的蛋白質(zhì)種類。

General SpecificationsDimensions (L x P x H, cm)LM60 (110 x 85 x 56 cm)
LM120 (164 x 85 x 56 cm)WeightLM60 (150 Kg), LM120 (200 Kg)Positional resolution (X,Y-Axis)500 nanometersPrinting speed48 spots per second or 192 Spots second according to the pins and printhead technologyPrinting technologyArrayit Pro, 946 or Stealth pins and printheadsNumber of pinsConfigurable 1 to 48 at 4.5 mm centers or
1 to 192 at 2.25mmSpot diameter65 microns or larger to meet all applicationsMinimum spot spacing50 micronsPre-printingUser definableWash/dry stationUltrasonic with 2 wash positions and a dry stationNumber of microplatesThree standard 384-well sample microplates, customizable on the worktable
Microplates to be printed into :
- 15 96-wells microplates (LM60)
- 45 96-wells microplates (LM120)Number of slides60 glass slide substrates (LM60)
120 glass slide substrates (LM120)Microplate coolingCool 1-3 microplates with a Peltier system, for protein microarray applicationsEnvironment controlFully enclosed, HEPA filtration and user-defined humidity control

NanoPrint uses 3 linear drives for X, Y and Z axis positioning combined with a proprietary linear drive motion control technology for superior positional resolution and accuracy
The X, Y - axis positional resolution is 500 nm.
The high speed, high precision linear servo control system of the NanoPrint produces superior instrument performance that is essentially free of friction, noise and thermal emission.NanoPrint uses a Z-axis encoder reading at 250-nanometers resolution leading to a superior Z-Axis Resolution for Optimum Spot Morphology.
NanoPrint offers highly precise resolution, repeatability and computer control over the speed and acceleration settings to ensure optimal printing onto any surface taking into account the biological samples to be printed.
Optimal parameters are set at the factory but can be easily changed by the user for printing onto many different surfaces with different samples. The user gets a license to be allowed to use this patented technology.The figure above shows 3 Z-Axis moves to configure ; distance, speed and acceleration are the parameters to set :

Z Profile: High speed
Z Extend: Printing speed
Z Retract: Quick return

Fig.1: this picture shows three 348-wells microplates, the wash/dry module with sonicator (upper part of the picture) and the printhead and pins printing onto glass substrates (middle left). NanoPrint deck is configured in a module manner, allowing different worktables to be inserted and removed from the deck allowing users to easily switch between different printing applications such as glass substrates, microplates, and proprietary cassettes and cartridges or other types of substrates.

Fig.2: NanoPrint is equipped with a Pin Cleaning Module that has a station providing pin washing, drying and sonication (downwards). The sonicator is filled and emptied during the print run in a completely automated manner.Systems sensors prevent splashing and overflowing for pin and deck safety. Drying is accomplished by vacuum using a quiet but powerful ACM-controlled (Accessory Module Control) function. The Pin Cleaning Module is rugged, durable and easy to maintain.

Fig.3: Here the deck is configured with a capacity of three 384-well sample microplates printing onto 60 standard glass slide substrates using a printhead loaded with 48 pins. A 192-pin printhead can also be used instead of the 48-pin printhead.

Fig.4: The screenshot shows a worktable allowing printing into 15 microplates (96-well) for the NanoPrint LM60. On the left part, three 348-well sample microplates with the pin cleaning module (wash/dry station with sonicator) can be seen.

Fig.5: The ACM (Accessory Control Module) unit provides computer control for the wash/dry, humidity, and ultrasonication stations on the deck of the NanoPrint . Accurate sensing of the humidity inside the chamber assures that proper humidity levels are achieved and maintained during the entire duration of each print run. Humidity is maintained in a user-specified manner of 1%. HEPA filtration protect the deck from dust to assure the necessary printing quality. Printing onto the worktables and control of the Pin Cleaning Module and the humidity are easily specified in software using the Microarray Manager.

Fig.6: Easy connectivity (pump, tubing and connectors) between the ACM and the robot provides proper humidity and tigthness levels.

Fig.7: A RH sensor monitors the humidity inside the chamber with high accuracy.Together with the ACM, it assures that proper humidity levels are achieved and maintained during the entire duration of each print run.
The humidification and dehumidification systems are triggered by the RH sensor that automatically maintain the levels set by the user.

Fig.8: NanoPrint systems offer sophisticated sample microplates cooling via Peltier s an affordable and highly recommended option in order to minimize sample evaporation during printing. Microplate cooling is highly recommended for protein microarray applications to minimize protein denaturation and microbial growth in recombinant protein samples. The Peltier module fits directly beneath the 348-well sample microplate for highly efficient cooling while maintaining a low deck profile.

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