About Us
Quantum Design has been active in Latin American since 1998. In 2010 the Latin America office was opened in Brazil to meet the needs of the sizable and growing research base using Quantum Design Equipment.
The office is fully operational where new features are continually being added to facilitate activities for researchers.
We are fortunate to be able to represent a very good line of other scientific instrumentation companies to service Latin America.
CONFERENCES
- May/2024 06/05/2024 - 10/05/2024 | 08:00 INTERMAG - International Magnetics Conference 2024
- May/2024 16/05/2024 - 17/05/2024 | 08:00 1st Regional Photonics Symposium
- May/2024 20/05/2024 - 24/05/2024 | 08:00 VII São Paulo Congress of Biological Sciences
- May/2024 20/05/2024 - 22/05/2024 | 08:00 X ACADEMIC CONFERENCE OF MEDICAL PHYSICS - UFCSPA
- Jun/2024 03/06/2024 - 07/06/2024 | 08:00 18th Brazilian Workshop in Magnetic Resonance/16th MR FOOD - AUREMN 2024
Blog
- Self-embedding silver nanoparticles: Researchers find the 'silver lining' in cotton gin waste Cotton gin waste, also known as cotton gin trash, is a byproduct of the cotton ginning process and occurs when the cotton fibers are separated from the seed boll. For cotton gin waste, the treasure is its hidden potential to transform silver ions into silver nanoparticles and create a new hybrid material that could be used to add antimicrobial properties to consumer products, like aerogels, packaging, or composites. Read More
- Quantum crystal of frozen electrons—the Wigner crystal—is visualized for the first time Electrons—the infinitesimally small particles that are known to zip around atoms—continue to amaze scientists despite the more than a century that scientists have studied them. Now, physicists at Princeton University have pushed the boundaries of our understanding of these minute particles by visualizing, for the first time, direct evidence for what is known as the Wigner crystal—a strange kind of matter that is made entirely of electrons. Read More
- Quantum Computing Heats Up: Scientists Achieve Qubit Function Above 1K For decades, the pursuit of quantum computing has struggled with the need for extremely low temperatures, mere fractions of a degree above absolute zero (0 Kelvin or –273.15°C). Read More
Products
- Phase FMR-8
- MicroWriter ML3 Mesa
- AFM Galaxy Dual Controller
- Redux AFM
- Pressure Cell II
- SS-PST100R AM1.5G Spectrum Adjustable Solar Simulator
- PERC/ HJT/ TOP-Con PV Cell Efficiency-Loss, Current-Loss, Voltage-Loss, and Fill-Factor-Loss Analysis Solution
- Phase FMR-40
- Ulvac Liquid Nitrogen Plants 20 L/day
- quNV
- SuperVariTemp Cryostat Systems - Sample in Flowing Vapor
- M-2000