DingXu (Suzhou) Microfluidics Technology Co., Ltd. is a high-tech enterprise dedicated to the field of microfluidics. We are committed to providing customers with comprehensive microfluidic solutions, including customized microfluidic chip development, surface modification, microfluidic chip processing equipment, and microfluidic instruments. Our team boasts extensive experience and technical expertise, continuously combining professional knowledge with innovative thinking to deliver high-quality solutions. We consistently prioritize customer-centric values, embrace self-challenges, and pursue excellence. Through professionalism, innovation, and collaboration, we aim to create greater value for our customers and contribute to a brighter future in the field of microfluidics.
Lipid Nanoparticle Chip (LNC) is an advanced technology with wide applications in nanotechnology, which is designed based on the special structure of lipid nanoparticles for efficient drug delivery and biomedical research.
微流体技术的不断进步推动了生物芯片领域的发展,其中DLD(Deterministic lateral displacement)分选芯片作为一项创新技术,为细胞分选领域带来了新的可能性。 本文将详细介绍DLD分选芯片的原理、优势、应用领域以及未来发展趋势。 一、细胞分选芯片的原理 DLD分选芯片采用了独特的DLD技术,即位移导向分选技术,其原理基于微小颗粒在微流控通道中的运动行为。 DLD分选芯片的微通道表面设计了一系列微米级的障碍物,这些障碍物能够在微小液体流动中导致颗粒的偏移,从而实现对颗粒的分选。 当细胞通过微通道时,其形态和柔韧性的不同将导致在DLD结构中产生不同的偏移,从而实现对细胞…
Microfluidic Droplet Sequencing Chip is an advanced biochip that combines microfluidic technology and high-throughput sequencing technology. Its core principle is to form tiny droplets within the chip by means of microfluidics, with each droplet being equivalent to a microreaction chamber, enabling large-scale, high-throughput gene sequencing on a single chip.
Microfluidic Lung Organ Chip is a micro experimental platform designed and fabricated based on microfluidics technology to simulate the structure and function of the lungs. It is a micro-organ composed of a series of micro-channels, chambers and cell culture membranes, which can simulate physiological and pathological processes such as respiratory movements, exchange of oxygen and carbon dioxide, and immune responses in the lungs.
PDMS (Polydimethylsiloxane) stamps are crucial tools in micro and nanofabrication, typically prepared using photolithography techniques. In Microcontact Printing, PDMS stamps serve as flexible templates with the capability to efficiently transfer small patterns. Their flexibility and ease of fabrication make them widely applied in the preparation of biochips, biosensors, and microelectronic devices. The development of PDMS stamps has undergone several stages and faced various challenges. Currently, researchers are actively addressing these challenges and exploring broader application areas. This article will elaborate on the developmental stages of PDMS stamps, current challenges, future directions, and application scenarios.
Heart disease has consistently been a major global health concern, and the research and screening of drugs are crucial for treating these conditions. In recent years, an innovative technology called Engineered Heart Tissue Chips (organ on a chip, microfluidic chips) has garnered widespread attention. This technology utilizes Engineered Heart Tissue (EHT) to create a unique drug screening platform, simulating the three-dimensional structure and mechanical responsiveness of real heart tissue, providing researchers with a more realistic and controllable experimental environment. This article will delve into the key features, advantages, and potential applications of Engineered Heart Tissue Chips in the development of cardiac tissue and the pharmaceutical research field.
In today's biomedical research field, organ chip/cell culture chip/organoid chip technology is pushing the boundaries of science at an astonishing speed. In order to realize more realistic and efficient biological experiments, organ chip/cell culture chip/organoid chip processing equipment has become an indispensable key element.
在科技领域的快速演进中,微流控技术已经崭露头角,引领着一场技术革命。这一领域的发展不仅丰富了科学研究,还在工业界和医疗领域中产生了深远的影响。本文将深入探讨微流控技术的起源、核心原理、实验室研究和产业应用,以揭示这一技术革命的背后故事。
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