Gene therapy is an approach to disease treatment where a patient’s genetic makeup is altered rather than using drugs or surgery. Gene therapy treatment is accomplished through the activation of a particular gene, repairing faulty genes, or introducing new genes to help fight disease.
DetailsOverview Interested in measuring surface friction? TA I…
DetailsPharmaceutical development is highly regulated, and for good reason. Potential new products must be rigorously tested to ensure their safety, purity, and performance are acceptable before coming to market. For topical creams, regulations uphold stability lifetime parameters and require identification of any impurities before products reach consumers.
DetailsOverview Whether you’re new to Dynamic Mechanical Analy…
DetailsQ Series™ 装置のサポートは、2024年をもって終了します。2024年以降、修理およびメンテナンスは「最善の努力」を払い行われる予定です。ただし、このような修理ができるかどうかは、部品の在庫状況次第であることにご留意ください。最新のDiscovery Seriesへの移行へのサポートとして、TAではトレードインプログラムと専用パッケージをご用意しています。
DetailsLithium-ion batteries represent the dominant rechargeable battery on the market today. They can be found in many applications including consumer electronics, electric vehicles and industrial equipment. Due to the tremendous adoption of lithium-ion batteries in recent years, battery technology is the focus of a diverse set of research areas aiming to improve battery lifetime, performance and safety.
DetailsOverview 3-D printing and additive manufacturing…
DetailsOverview Whether you’re training a new rheometer user o…
DetailsOverview Trends in tire development and manufacturing h…
DetailsDynamic mechanical analysis (DMA) is a technique to measure the response of materials when they are subjected to dynamic or cyclic forces. Typically, dynamic mechanical analysis involves looking at the elastic and viscous response of the material when it is under a small oscillating load that probes the molecular structure’s response to the perturbation . Other variables, such as temperature, time and frequency may be changed as part of the testing to characterize how the material performs under different environmental conditions.
DetailsCatalytic reactions are everywhere: from plastics and bread to over 90% of all chemicals worldwide, countless goods and materials are manufactured with the aid of catalysts.1 Catalysts are substances that speed up sluggish chemical reactions. Faster reactions are more technologically and economically competitive. Furthermore, optimized catalysts offer a huge potential to reduce energy and resource consumption and lower carbon dioxide emissions.
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