苏州微流纳米生物技术有限公司

Suzhou Will NanoBioTech Co.,Ltd.
咨询热线: 13020218906  邮箱: biotech@willnano.com
资讯动态 首页 > 资讯中心 > 公司新闻

微流纳米生物2022公司团建

作者:www.willnano.com 日期:2022-10-23 点击:2900
一键分享

近日,由微流纳米市场部组织,实验部、货物部、售后部和办公室的同事共同参与的一场秋季休闲团建活动圆满收官。在繁忙的城市与工作时光中,抽个周末进行一次远离城市的团建活动,用一顶帐篷躲进自然,用一次篝火放飞自我,用一杯美酒敬朝阳与月光,用一场狂欢成为更亲密的伙伴。


图 微流纳米2022休闲团建

图 微流纳米2022休闲团建

图 微流纳米2022休闲团建

 

微流纳米作为微射流高压纳米均质机、微流控纳米合成仪、脂质体挤出器、微流控纳米粒度仪的专业供应企业,其供应的微射流高压纳米均质设备采用动态高压微射流技术,特殊设计的微射流金刚石交互容腔是微射流设备行业的起源技术,其供应的美国Genizer微射流与美国MFIC微射流设备及配件是目前评价较优以及上市复杂注射剂药品应用较广的设备,Genizer与MFIC的微射流高压纳米均质设备具有极高的剪切效率、极好的结果重复性、可保证的放大生产能力,经过众多次现场PK测试,设备处理效果与操作便利性,已经获得越来越多的合作与认可,为众多脂质体、纳米乳、纳米混悬液、白蛋白纳米粒、纳米新材料分散与制备等领域提供了服务;美国Spectradyne微流控纳米粒度仪,采用微流控电阻脉冲技术,相比于常用的动态光散射技术,Spectradyne微流控纳米粒度仪具有更高分辨率同时可以避免动态光散射信号二次换算以及大颗粒对结果比重偏大的系统误差。Spectradyne微流控纳米粒度仪适用领域:蛋白质聚集物、病毒等、外泌体、微囊泡、脂质体、纳米乳、纳米药物、吸入剂、尾端大颗粒、血清中的生物标志物等、无机纳米颗粒:金/银、硅质衍生物、金属氧化物纳米颗粒等。

 

设备部分服务的已见刊文章如下:

Ø Aromatic Acids and Leucine Derivatives Produced from the Deep-Sea Actinomycetes Streptomyces chumphonensis SCSIO15079 with Antihyperlipidemic Activities

Ø Atmospheric pressure plasma jet pretreatment to facilitate cassava starch modification with octenyl succinic anhydride

Ø Cellulose nanofibers produced from various agricultural residues and their reinforcement effects in polymer nanocomposites

Ø Conformational changes induced by high-pressure homogenization inhibit myosin filament formation in low ionic strength solutions

Ø Effect of Potato Pulp Pectic Polysaccharide on the Stability of Acidified Milk Drinks

Ø Effect of the disruption chamber geometry on the physicochemical and structural properties of water-soluble myofibrillar proteins prepared by high pressure homogenization (HPH)

Ø Effects of high-intensity ultrasound, high-pressure processing, and high-pressure homogenization on the physicochemical and functional properties of myofibrillar proteins

Ø Identification and Biosynthesis of Pro-Inflammatory Sulfonolipids from an Opportunistic Pathogen Chryseobacterium gleum

Ø Nanodisc-Mediated Conversion of Virustatic Antiviral Antibody to Disrupt Virus Envelope in Infected Cells

Ø Potential of high pressure homogenization to solubilize chicken breast myofibrillar proteins in water

Ø Preparation of a novel emulsifier by self-assembling of proanthocyanidins from Chinese bayberry (Myrica rubra Sieb. et Zucc.) leaves with gelatin

Ø Probing mechanical properties of graphene oxide/epoxy composites based on nano indentation technique

Ø Production of Cellulose Nanofibers Using Midwest Biomass and Their High-Performance Rubber Nanocomposites

Ø Resistance of detached-cells of biofilm formed by Staphylococcus aureus to ultra high pressure homogenization

Ø Structural basis of transcription activation by Rob, a pleiotropic AraC/XylS family regulator

Ø Structural modification by high-pressure homogenization for improved functional properties of freeze-dried myofibrillar proteins powder

Ø Supercritical CO2-assisted microfluidization as ultrahigh efficiency strategy for graphene preparation

Ø Water-soluble myofibrillar proteins prepared by high-pressure homogenisation: a comparison study on the composition and functionality

Ø Single-particle detection of native SARS-CoV-2 virions by microfluidic resistive pulse sensing

Ø Isolation and characterization of extracellular vesicles and future directions in diagnosis and therapy

Ø Amino surface modification and fluorescent labeling of porous hollow organosilica particles: Optimization and characterization

Ø Quantitative and multiplex detection of extracellular vesicle-derived microRNA via rolling circle amplification within encoded hydrogel microparticles

Ø Storage conditions determine the characteristics of red blood cell derived extracellular vesicles

 

如有纳米化疑难问题,也欢迎联系测试,帮助科研与生产人员解决纳米化问题也是我们团队使命所在。

 

微流纳米Vic