EMFUTUR
EMFUTUR technologies is a high quality Nanomaterials supplier. Founded in Vila-Real, Spain, in September 2001. We export to more than 100 countries around the globe, and serve every day a wide range of customers, from chemistry laboratories and institutions strongly involved in pioneering research, to major manufacturers introducing revolutionary nanomaterials-based products with astonishing properties.
EMFUTUR is a high quality Nanomaterials supplier for the Scientist Community providing also bulk nanoparticles for the end-products manufacturers of several fields located around the world.
Product Categories
Advanced carbon allotropes, such as fullerenes, graphene, and carbon nanotubes, with applications across drug delivery, photodynamic therapy, biosensors, antimicrobial applications and others.
A comprehensive range of nanowires, with high surface area, electrical conductivity, and mechanical strength, for a targeted approach in drug delivery systems, biosensors, imaging tools, cell behavioral studies and more.
Premium quantum dots, known for their exceptional optical properties, can enhance precision, efficiency, and sensitivity across various domains, from drug delivery and diagnostics to genetic engineering and environmental biotechnology.
High-quality nanoparticles for diverse applications. Their nanoparticles enhance drug delivery, catalysis, and material science, offering innovative solutions for medical, industrial, and research needs.
Nanourchins, characterized by their unique spiky morphology, enhance applications in catalysis, energy storage, and biomedicine.
Nanorods, meticulously engineered for precise dimensions, bolster advancements in electronics, sensors, and medical diagnostics. Applications include targeted drug delivery, diagnostics, gene therapy, tissue engineering, and more.
Coming soon…
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Product Applications
- Micro and Nano electronics
- Sensors and Actuators
- Energy (storage and productions)
- Optical devices
- Biomedical and Bionic
- Drug delivery
- Tissue Engineering
- Composite Materials
- Abrasives
- Catalysis and Photocatalysis,
- Magnetic Materials
- Electromagnetic
- Shielding
- Conductive Paints
- Photonic Materials
- Plasmonics
Featured Products
Amine Functionalized Graphene Oxide Powder – The amine groups of our aminated graphene oxide improve its dispersibility in various polymer matrices (epoxy resins, polyester resins, polymers and others).
Graphene nanoplatelets – Graphene Nanoplatelets are unique nanoparticles consisting of short stacks of graphene sheets in platelet form. Each type contains particles with a similar average thickness and surface area.
Carbon nanotubes (CNTs) – MWCNT – A Carbon nanotube (CNTs) is a tube of carbon with diameters usually measured in nanometres. Multi-walled carbon nanotubes (MWCNTs) consist of nested single-walled carbon nanotubes weakly connected to each other by van der Waals interactions in a tree-ring-like structure.
Carbon nanotubes (CNTs) – MWCNT W – They allow the incorporation of carbon nanotubes in water-based application systems (coatings, films…). The dispersion contains surfactants for superior dispersion and stability.
Emfutur’s nanodrops are versatile nanomaterials with applications in various fields, including biotechnology and life sciences. These applications leverage the unique properties of nanodrops, such as their small size, high surface area, and functionalizability. Here are some key uses in biotechnology and life sciences:
1. Drug Delivery Targeted Delivery: Nanodrops can be engineered to deliver drugs to specific cells or tissues, enhancing the efficacy and reducing side effects of treatments. They can cross biological barriers, such as the blood-brain barrier, enabling treatment of previously inaccessible areas. Controlled Release: Nanodrops can be designed to release drugs in a controlled manner, ensuring sustained therapeutic effects.
2. Diagnostics and Imaging Contrast Agents: Nanodrops can be used as contrast agents in imaging techniques like MRI, CT scans, and ultrasound, improving the clarity and accuracy of images. Biosensors: Functionalized nanodrops can detect specific biological molecules, making them useful in biosensors for diagnostics.
3. Gene Therapy Gene Delivery: Nanodrops can encapsulate genetic material (DNA, RNA) and protect it from degradation while delivering it to target cells. They can be used in CRISPR-Cas9 systems to enhance gene editing efficiency.
4. Tissue Engineering Scaffold Materials: Nanodrops can be incorporated into scaffolds for tissue engineering, promoting cell attachment, growth, and differentiation. Regenerative Medicine: They can be used to deliver growth factors or other bioactive molecules to support tissue regeneration.
5. Antimicrobial Treatments Antibacterial and Antiviral Agents: anodrops can be loaded with antimicrobial agents to treat infections, including those caused by drug-resistant bacteria and viruses. Surface Coatings: They can be used in coatings for medical devices to prevent biofilm formation and infection.
6. Environmental Biotechnology Pollutant Degradation: Functionalized nanodrops can be used to detect and degrade environmental pollutants, offering solutions for bioremediation.
7. Protein and Enzyme Delivery Stabilization and Delivery: Nanodrops can stabilize proteins and enzymes, delivering them in a functional state to specific sites within the body.
8. Cancer Therapy Photothermal and Photodynamic Therapy: Nanodrops can be used in combination with light to destroy cancer cells through photothermal or photodynamic therapy. Targeted Chemotherapy: They can be used to deliver chemotherapeutic agents directly to tumor cells, minimizing damage to healthy tissue.
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