🧪 Exciting News! We’ve launched our New Lab Program - empowering innovation with cutting-edge research facilities. <a href="https://cellculturecollective.com/new-lab-program/" target="_blank">Explore Now! 🔬</a>
🧪 Exciting News! We’ve launched our New Lab Program - empowering innovation with cutting-edge research facilities. <a href="https://cellculturecollective.com/new-lab-program/" target="_blank">Explore Now! 🔬</a>
$95.33
NEST® Nitrile gloves are made from synthetic rubber, this means there is no risk of latex allergies. They are the most popular glove type in our range and offer superior strength, dexterity and resistance to oils and aqueous chemicals in comparison to vinyl or latex. For these reasons, they are often used in the medical, laboratory and manufacturing industries.
• Offer improved resistant to punctures, tears, and rips compared to latex or vinyl alternatives.
• Flexible and comfortable to wear, offering excellent tactile sensitivity.
• Textured fingertips offer improved grip.
• Beaded cuff increases glove strength and prevents liquid roll back.
• Latex and powder free to minimize the risk of allergic reaction.
• Single use only • Made in Malaysia • Ambidextrous • Beaded cuff • Finger-textured • Powder free • Chlorinated • Tensile Strength: Minimum 18.0 MPa( Before Aging) • Palm thickness: 0.05mm
Long before the double helix became a symbol of modern biology, its shape remained an enigma. Scientists suspected DNA held the key to life’s code, but its structure was still out of reach. In a lab at King’s College London, Rosalind Franklin began a line of experiments that would change
Every lab experiment carries more than just scientific weight. It carries the pressure of deadlines, grant expectations, publication goals, and the simple but critical need for results that can be trusted. Yet all too often, experiments are compromised not because of a flawed hypothesis, but because of something much smaller;
Behind every successful experiment is a series of small, consistent choices and often, the most overlooked are the tools we use every day. In cell culture, even the best protocols and techniques can’t compensate for consumables that fall short on sterility, reliability, or performance. Contamination, variability, and unexpected failures rarely
In the intricate world of cell culture, precision is everything. Monitoring plays a pivotal role in ensuring that cells thrive, experiments succeed, and data remains reliable. However, for many researchers, this critical aspect often becomes a source of frustration. From contamination to data inconsistencies, the challenges of cell culture monitoring
A future where new drugs are developed faster, safer, and with greater precision, without relying on animal testing or lengthy clinical trials. A future where treatments are tailored specifically to your genetic makeup, providing maximum efficacy with minimal side effects. This is the promise of 3D bioprinting in drug discovery,
Imagine a future where your favorite burger doesn’t come from a farm but a lab. It is produced without slaughter, with minimal environmental impact, and with the same taste and texture you know and love. This is the promise of cell-based meat cultivation, a revolutionary approach that’s reshaping the way
If you’re working with cell cultures, you already know how critical it is to monitor cell viability and growth at every stage. Whether you’re a PhD student in the middle of a crucial experiment, a seasoned scientist in biotech, or part of a cutting-edge research lab, keeping a close eye
The field of cell culture is evolving at an unprecedented pace, driving breakthroughs across biomedical research, drug discovery, and sustainable bioproducts. From 3D models revolutionizing cancer research to bioreactors scaling up production, the innovations in this space are transforming how we approach science and medicine. In 2022, the global cell
Scaling up cell cultures is an art, one that bridges the gap between routine lab work and groundbreaking discoveries. Whether you’re cultivating cells for life-saving therapies, high-precision drug testing, or cutting-edge biomanufacturing, the challenge lies in achieving consistent growth while safeguarding cell viability and functionality. Efficient cell culture expansion isn’t
