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Captivate Bio's RPMI 1640 Medium is suitable for a variety of mammalian cells. This formulation is modified without L-glutamine or glucose and with Phenol Red.
Captivate Bio's NEST Erlenmeyer Flasks are available with a flat base in 125, 250, 500, and 1000 mL volumes. This product is configured with vent caps, flat bottom, sterile, and in PETG material.
Captivate Bio's DMEM/F12 basal medium is typically used as a classical basal formulation in low-serum and serum-free media formulations, when culturing hPSCs and 3D organoids. This formulation is with L-glutamine and Phenol Red.
Captivate Bio's Normal Saline Solution is commonly used in a wide variety of molecular and cellular biology applications. This formulation is with 9 g/L sodium chloride and is for non clinical use.
Captivate Bio's PBS, pH 7.4, is a simple, balanced salt solution widely used in various cell culture applications. Tested for endotoxin, mycoplasma, and sterility. This product is available in a variety of formats.
Captivate Bio's DMEM, High Glucose is a widely used basal medium for supporting the growth of many different mammalian cells. This formulation contains 4 mM L-glutamine and 4500 mg/L glucose.
Captivate Bio's DMEM, High Glucose is a widely used basal medium for supporting the growth of many different mammalian cells. This formulation contains 4500 mg/L glucose and no L-glutamine.
Captivate Bio's Alpha MEM is widely used for a variety of suspension and adherent mammalian cells, including keratinocytes, primary rat astrocytes, and human melanoma cells. This formulations is with L-glutamine and low Glucose.
Captivate Bio's EMEM, with L-glutamine is a commonly used basal media for a variety of suspension and adherent mammalian cells. This formulation is configured with L-glutamine.
Captivate Bio's IMDM (Iscove's Modified Dulbecco's Medium) is a popular classical media for rapid proliferation of high-density cell cultures, including hematopoietic stem cells, Jurkat, and macrophage cells. This media is ideal for cultures in a 5% CO2 atmosphere.
