Electronic Materials
We provide a range of resources intended for energy-related uses, including organic semiconductor items that cater to the needs of academic studies and industrial production in advanced devices like OPVs, OLEDs, and OTFTs. Organic materials stand out due to their flexibility, affordability, and simple production compared to inorganic alternatives. To illustrate, they serve as integral parts of conductive inks, enabling the streamlined creation of devices through techniques like inkjet printing.
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Self-Assembly & Contact Printing
Molecular self-assembly (MSA) involves the spontaneous arrangement of molecules without external guidance. This natural process can be witnessed in instances like the formation of lipid bilayer membranes within cells. When intermolecular forces are strategically employed, novel and previously unattainable nanostructures can be created.
Inorganic & Metallic Nanomaterials
Nanomaterials are characterized by having at least one dimension less than or equal to 100 nanometers. Nanoparticles possess a notable ratio of surface area to volume, enabling them to carry a substantial load on their surfaces. Our range of inorganic and metallic nanomaterials finds applications in a diverse spectrum, spanning from sensors and solar cells to medical uses
OFET & OPV Materials
We present an extensive array of materials to cater to the needs of OFET & OPV applications, encompassing carbon nanomaterials, conductive polymers, p-type and n-type semiconductor polymers, inks tailored for printed electronics, readily applicable conductive substrates, self-assembly materials, and small organic molecules.
Electronic Chemicals & Etchants
Specialty chemicals play a pivotal role in enhancing the technological prowess and cost-effectiveness of electronic components and devices, ensuring alignment with the rapidly evolving electronics sector. The fabrication of semiconductor devices involves a complex sequence of meticulously controlled processes, encompassing tasks like cleansing, etching
Carbon Nanomaterials
Carbon nanomaterials form an extensive family of distinct carbon structures, encompassing 0-dimensional fullerenes and quantum dots, 1-dimensional carbon nanotubes (CNTs), 2-dimensional graphene, and 3-dimensional nanodiamonds and nanohorns. These carbon nanomaterials possess exceptional physical and chemical attributes, rendering them indispensable across a wide spectrum of applications.
Photonic & Optical Materials
PHOTONICS
Photonics is a technology that utilizes photons from radiant energy, such as visible light or infrared beams, for data transmission instead of electrons. Photonics offers numerous advantages over traditional electronics in information and image processing technologies. These benefits include larger bandwidths, faster response rates,
ORGANIC LIGHT-EMITTING DIODES
The organic light-emitting diode (OLED) represents a high-performance optoelectronic apparatus composed of organic layers for charge transport and emission. When a voltage is applied, the OLED's dual carrier injection mechanism introduces both electrons and holes into the electroluminescent material situated between two electrodes.
Substrates & Prefab Electronic Components
Our pre-made substrates and electronic components are designed to significantly reduce the processing time required for tasks like characterizing newly developed semiconductor materials or assembling functional FET-based sensors for detecting chemical and biological analytes. All you need to do is apply your chosen semiconducting layer.
Silicone Materials
SILICONES
Silicones, also referred to as polysiloxanes, are synthetic polymers featuring a silicon-oxygen backbone akin to silicon dioxide, supplemented with additional organic groups. In contrast to analogous carbon-based polymers, these compounds manifest a distinctive blend of physical and chemical attributes, owing to the remarkable physicochemical nature of the siloxane (-Si-O-) bond. Silicone-containing copolymers and networks with silicone modifications exhibit remarkable backbone flexibility
Specialty & Smart Polymers
Specialized and intelligent polymer materials offer outstanding mechanical characteristics such as rigidity, durability, tensile strength, and reduced deformation, making them well-suited for engineering procedures. These polymers are particularly advantageous for structural applications such as gears, automotive components, protective casings for electronic devices, and high-strength composite materials. To explore these possibilities, delve into our range of thermosets, thermoplastics, and 3D printing filaments.
Printed Electronic Materials
PRINTED ELECTRONICS
Printed electronics encompasses the creation of large-scale, lightweight, and flexible electronic components using printing techniques, seamlessly integrating electronic elements during the printing process. This technique incorporates electronic building blocks directly into printed products. Notable examples include thin-film transistors (TFTs), organic light-emitting diodes (OLEDs), sensors, flexible displays
Liquid Crystals
Liquid crystals are structured fluids characterized by both orientational (nematic, cholesteric) and positional (smectic) arrangement of their constituent molecules. The specific molecular order within liquid crystals is dictated by the shape and chirality of the molecules, resulting in a diverse range of more than a hundred distinct liquid crystal phases. The alignment of these molecules within liquid crystal films leads to optical properties such as refractive index, reflectivity, and transmission, which can exhibit variations based on the wavelength (color) and polarization of the incident light.