Keeping Lab Consumables on Hand in Cambodia
Responsive customer service and swift facilitation of their chemical laboratory requirements ensured our customers’ ongoing satisfaction when they signed the chemical stocking contract with DKSH Cambodia.
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A Direct Accelerated Stability Test for Additives Allows Easy Determination
Cosmetics, personal and home care products are often formulated as dispersions. Separation stability is one of their important characteristics. Its determination in real-time is often contradictory to the market demands of a quick product release. Instrumental methods for the accelerated stability testing belong to the concepts of choice to provide quick information in R&D as well as in QC/QA.
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A Fast Efficient Method To Determine the Presence of Nitrosamines in Cosmetics, Personal Care and Consumer Products
N-nitrosamines are a class of compounds that have been shown to exhibit carcinogenic and mutagenic effects in animal models at several different tissue sites and by several different routes of exposure. Nitrosamines can potentially be formed in consumer products, cosmetics and personal care formulations, either during manufacture or product storage. Analysis of cosmetic, personal care and consumer products for nitrosamine content should be included in Product Safety Assessments to ensure compliance with the new Cosmetic and Consumer Products Regulations.
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Powering the EV Battery Industry: Unlocking Potential With Battery Material Particle Size and Shape Analysis
Today, the electric vehicle (EV) industry is not only about transportation but also a force shaping our future. Introducing the concept of low carbon and sustainable development: advancing energy revolution and constructing a clean, low-carbon, safe, and efficient energy system.
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DKSH Cosmetics Total Solutions
The global cosmetics industry is growing faster than ever. Three significant trends are shaping the future of cosmetics: DKSH Business Unit Technology provides cosmetics manufacturers with the right laboratory instruments and expertise to successfully achieve your research and quality control goals. Our solutions cover materials development and characterization, advanced biotechnology research, quality control, manufacturing. Visit Cosmetics for…
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Application note | Environment | Food and Beverage | Material characterization | Specialty Chemicals
Exploring the Wettability of Membranes: A Key to Understanding Separation Processes
In the world of filtration and separation processes, the concept of wettability plays a crucial role in determining the efficiency and effectiveness of membrane materials. Membranes are widely used in various industries, including water treatment, pharmaceuticals, and food processing, to separate substances based on their size, charge, or chemical properties. Understanding the wettability of membranes is essential for optimizing these processes and achieving desired separation outcomes. In this blog, we will delve into the fascinating world of membrane wettability and its significance in separation science.
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What Are the Differences Between Rabbit and Mouse Antibodies?
Antibodies are the most commonly used tools in biological research. They are used in various applications such as Western Blot (WB), Immunoprecipitation (IP), Immunofluorescence (IF), Immunohistochemistry (IHC) and enzyme-linked immunosorbent assays (ELISA). Two of the most common hosts for producing research antibodies are rabbits and mice, but what are the differences between rabbit and mouse antibodies? Which antibody would be best suited for your research?
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Wettability of Biomaterials: Enhancing Biocompatibility and Performance
Biomaterials have become integral in modern medicine, facilitating advancements in tissue engineering, drug delivery, and medical device design. These materials often come into direct contact with biological systems, making their surface properties a critical factor in their performance. One such surface property that significantly impacts biomaterial functionality is wettability. In this blog post, we will explore the concept of wettability, its importance in biomaterials, and how it can be manipulated to improve biocompatibility and overall performance.
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Electrode Surface Modification to Improve Lithium-Ion Battery Performance
Developing efficient energy conversion and storage technology is gradually becoming more and more necessary with the increasing shortage of fuel resources and the growth of environmental pollution. Demand and applications for emerging technology such as new-energy vehicles and massive-scale energy storage are also expanding.
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Analyzing Fuel Cell Electrode Corrosion by Electrochemical QCM-D
Polymer Electrolyte Membrane Fuel Cells (PEMFCs) are promising for use in applications such as cars, laptops and stationary applications. However, corrosion of the electrodes shortens their lifetime, and better understanding of these processes is necessary to improve PEMFCs and make them a realistic alternative as a source of electricity.
