俄罗斯科学家利用微流控方法制造了稳定的百里香提取物纳米液滴，改善了输送效率并减少了刺激。 Russian scientists created stable nanodroplets of thyme extract using a microfluidic method, improving delivery and reducing irritation.

俄罗斯科学家开发了一种微流体方法, 用以将提花提取物封装在稳定的纳米滴中, 改善输送并减少高剂量刺激. Russian scientists have developed a microfluidic method to encapsulate thyme extract in stable nanodroplets, improving delivery and reducing irritation from high doses. 该技术将甲状腺提取物与凝胶和硫酸钠结合起来,然后使用穿透油喷气式喷气机形成统一的滴子,从而能够准确、一致地施用剂量。 The technique combines thyme extract with gelatin and sodium alginate, then uses a perpendicular oil jet to form uniform droplets, enabling precise, consistent dosing. 该系统通过改变石油流量率自我调节和调整小滴体积。 The system self-regulates and adjusts droplet size by changing oil flow rates. 研究人员说,它可以适应其他植物的提取,并且具有制药和食品的潜力。 Researchers say it can be adapted for other plant extracts and has potential in pharmaceuticals and food products. 它们计划探索较高浓度的提取物,并结合人工智能和机器愿景进行实时监测,没有发现重大技术限制。 They plan to explore higher-concentration extracts and integrate AI and machine vision for real-time monitoring, with no major technical limitations identified.