普瑞麦迪(北京)实验室技术有限公司
高级会员第2年 参观人数:22250
  • 参考报价:电议
    型号:
    产地:瑞典
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    产品简介

    CELLINK创立于2016年,是生物墨水制造商之一。公司成立仅10个月就在纳斯达克上市。在为用户提供高水平生物墨水的同时,CELLINK基于用户反馈开发了一系列生物打印机,短短四年时间已成为生物3D打印领域的佼佼者。用户遍及50多个国家的700余实验室,既有哈佛大学、斯坦福大学、剑桥大学等知名学术机构,也不乏罗氏、诺华、默克等知名企业。

    BIO 采用挤压式打印方式,是适用于生物科研机构、创新型科研工作者的新一代生物3D打印机,BIO X的响应性新皮层M1内置计算机允许使用者调控复杂的人体组织打印流程,是目前易于使用且是功能性学科一直期待的生物3D打印设备。

    配有高效微粒捕捉空气过滤系统;

    三个可替换的打印头、适合300多种打印生物材料;

    可调节温度的打印床;

    触控式设计,可带手套操作;

    产品优势CELLINK BIO X 生物3D打印系统

    压缩型:小身材大智慧,包含工作所需全部原件

    便捷性:智能及可更换的打印头,三重喷出结构,可以对更为复杂的组织模型实现生物打印

    多打印头:热熔挤出式,温控打印头,电磁液滴打印头,注射器打印头,高清摄像头工具头,光固化工具头等

    高性能:心脏、皮肤、软骨或骨头等都可打印

    高兼容性:多种不同的打印头,适合300多种打印生物材料

    固化系统:365nm&405nm紫外线光固化系统,可更换的UV-LED

    高精度打印:*小打印精度:5纳升;XYZ轴定位精度:2微米

    技术参数

    打印头和工具头

    打印头可选类型

    加热气动式

    喷墨式

    热熔挤出式

    冷却气动式

    工具头可选类型

    光固化工具

    高清摄像机

    默认配置打印头数量和种类

    (3x)加热气动式打印头

    (1x)注射泵式打印头

    打印参数

    构建体积130x90x70mm
    层厚精度1μm
    定位精度1μm
    校准自动
    打印床温度范围4-60
    打印头温度范围4-250
    压力0-700kPa
    *快打印速度40mm/s
    可同时打印材料种类数3;使用3个打印头
    固化光源LED

    默认配置:UV365nm,405nm

    其他波长可选

    打印头驱动机械高精度

    硬件配置

    过滤装置

    HEPA H14,拦截率99.995%

    预过滤器(大颗粒物拦截)

    软件内置集成
    支持文件类型STL
    数据传输以太网,无线Wi-Fi,USB
    外观尺寸480x440x355mm
    仪器重量17kg
    毛重(含外包装)21kg
    电源、功率100-240V,50-60HZ,600W
    **电压250V T8A
    结构材质铝合金框架,亚光喷漆外壳

    附加功能及参数

    内置气泵

    内置压缩机

    双风扇动力

    舱内正压

    UV-C灭菌灯,275nm,2W

    模块化3个喷嘴组合

    7“LCD触摸屏,佩戴手套可使用

    应用领域

    1. 基础研究

    2.药物筛选

    3.再生医学

    引用文献

    Microextrusion Printing Cell-Laden Networks of Type I Collagen with Patterned Anisotropy and Geomtery. (2019).Acta Biomaterialia

    Tissue-mimicking gelatin scaffolds by alginate sacrificial templates for adipose tissue engineering. (2019).Acta Biomaterialia

    Mouse in vitro spermatogenesis on alginate-based 3D bioprinted scaffolds. (2019).Biofabrication

    Extrusion-based printing of sacrificial Carbopol ink for fabrication of microfluidic evices (2019).Biofabrication

    Process- and bio-inspired hydrogels for 3D bioprinting of soft free-standing neural and glial tissues. (2019). Biofabrication

    Formulation and Characterization of a SIS-Based Photocrosslinkable Bioink. (2019).Polymers

    Multi-channel silk sponge mimicking bone marrow vascular niche forplatelet production.(2018).Biomaterials

    Mechanical behaviour of alginate-gelatin hydrogels for 3D bioprinting. (2018). Journal of the mechanical behavior of

    biomedical materials

    3D Bioprinting and Stem Cells .(2018). Somatic Stem cells

    3D printing of PDMS improves its mechanical and cell adhesion properties Skin Grafting on 3D Bioprinted Cartilage Constructs In Vivo. (2018). ACS Biomaterials Science & Engineering

    Bioprinted (3D) co-cultured spheroids with NSCLC PDX cells and cancer associated fibroblasts (CAFs) using alginate/gelatin hydrogel.(2018) .AACR, Cancer research

    Optimization of cell-laden bioinks for 3D bioprinting and efficient infection with influenza A virus.(2018).Scientific reports

    Fabrication of naftopidil-loaded tablets using a semi-solid extrusion-type 3D printer, and the characteristics of the printed hydrogel and resulting tablets. (2018). Journal of pharmaceutical sciences

    High-resolution patterned cellular constructs by droplet-based 3D printing. (2017). Scientific reports

    Combination of CDODA-Me, a glycyrrhetinic acid derivative, and Erlotinib overcomes chemo-resistance in NSCLC PDX spheroids and 3D bio-printed cells.

    (2017).AACR, Cancer Research.

    Controlling adult stem cell behavior using nanodiamond-reinforced hydrogel: Implication in bone regeneration therapy. (2017).Scientific Reports

    Increased lipid accumulation and adipogenic gene expression of adipocytes in 3D bioprinted nanocellulose scaffolds. (2017). Biofabrication