Device
Small helpers designed to simplify the daily routine work in the microbiological Lab.
Convenient, ergonomic and equipped with enhanced safety tools.
Small helpers designed to simplify the daily routine work in the microbiological Lab.
Convenient, ergonomic and equipped with enhanced safety tools.
Full line up : Configure product full line up required for biotechnology
The safety of researchers comes first: Biometric Safety Workstation puts priority on protecting researchers and environmental safety and samples from biological high-risk groups.
Delivering the Best Service: With 100% bioall technology, the company obtained overseas certification for the first time in Korea and solved unnecessary price bubbles by manufacturing in Korea. We train NSF Certifier of national oil to quickly and accurately deliver the best service to the installation and verification operation of equipment.
A Laminar Flow Cabinet (LFC) or tissue culture hood is a carefully enclosed bench designed to prevent contamination of semiconductor wafers, biological samples, or any particle sensitive materials. Air is drawn through a HEPA filter and blown in a very smooth, laminar flow towards the user. Due to the direction of air flow, the sample is protected from the user but the user is not protected from the sample. The cabinet is usually made of stainless steel with no gaps or joints where spores might collect.
Such hoods exist in both horizontal and vertical configurations, and there are many different types of cabinets with a variety of airflow patterns and acceptable uses.
Laminar flow cabinets may have a UV-C germicidal lamp to sterilize the interior and contents before usage to prevent contamination of experiment. Germicidal lamps are usually kept on for 15 minutes to sterilize the interior and no contact is to be made with a laminar flow hood during this time. During this time, scientists normally prepare other materials to maximize efficiency. (It is important to switch this light off during use, to limit exposure to skin and eyes as stray ultraviolet light emissions can cause cancer and cataracts.
A Bio Safety Cabinet (BSC) — also called a biological safety cabinet or microbiological safety cabinet—is an enclosed, ventilated laboratory workspace for safely working with materials contaminated with (or potentially contaminated with) pathogens requiring a defined biosafety level. Several different types of BSC exist, differentiated by the degree of biocontainment required. BSCs first became commercially available in 1950.
The primary purpose of a BSC is to serve as a means to protect the laboratory worker and the surrounding environment from pathogens. All exhaust air is HEPA-filtered as it exits the biosafety cabinet, removing harmful bacteria and viruses. This is in contrast to a laminar flow clean bench, which blows unfiltered exhaust air towards the user and is not safe for work with pathogenic agents. Neither are most BSCs safe for use as fume hoods. Likewise, a fume hood fails to provide the environmental protection that HEPA filtration in a BSC would provide. However, most classes of BSCs have a secondary purpose to maintain the sterility of materials inside (the “product”).
Small helpers designed to simplify the daily routine work in the microbiological Lab.
Convenient, ergonomic and equipped with enhanced safety tools.
The specialists’ choice for contamination free Media dispensing. Peristaltic pumps dedicated for sterile microbiological and cell culture Media filling. Full metal body, no rims no gaps – Ideal for food and pharmaceutical Labs. User friendly command spread sheet makes it easy for everybody to program the pump upon his needs
A thermometer is a device that measures temperature or a temperature gradient (the degree of hotness or coldness of an object) A thermometer has two important elements: (1) a temperature sensor (e.g. the bulb of a mercury-in-glass thermometer or the pyrometric sensor in an infrared thermometer) in which some change occurs with a change in temperature; and (2) some means of converting this change into a numerical value (e.g. the visible scale that is marked on a mercury-in-glass thermometer or the digital readout on an infrared model). Thermometers are widely used in technology and industry to monitor processes, in meteorology, in medicine, and in scientific research. During the COVID-19 pandemic they were used by businesses to detect the fever brought on by the virus.
Some of the principles of the thermometer were known to Greek philosophers of two thousand years ago. The Italian physician Santorio Santorio (Sanctorius, 1561-1636) is commonly credited with the invention of the first thermometer, but its standardisation was completed through the 17th and 18th centuries.
There are many types of thermometers used under Science, Geography etc.