Specification:
| Code | C952, C953, C956 |
| Name | Graphene |
| Types | Single layer graphene, multi layers graphene, graphene nanoplatelets |
| Thickness | 0.6-1.2nm, 1.5-3nm, <25nm |
| Length | 0.8-2um, 5-10um, <20um |
| Purity | 99% |
| Appearance | Black powder |
| Package | 1g, 5g, 10g, or as required |
| Potential applications | Sensors,new energy batteries, conduction, catalyst, flexible display, hydrogen storage material, etc.. |
Description:
Graphene used in various kinds of sensors:
1. Gas sensor: In this application, graphene has the advantage of being a very low noise material.
2. Electrochemical sensor: high sensitivity and extremely fast response speed.
3. Photoelectric sensors: Graphene's high conductivity and near-transparent properties make it an attractive choice for transparent electrodes in photovoltaic cells and photoelectric sensors.
4. Graphene has better carrier mobility than other materials, which means its response time is much faster than that of other photodetectors
5. Magnetic field sensor: Graphene has a more attractive Hall effect resistance Mechanical sensor: Due to the high conductivity and good mechanical properties of graphene, the graphene-based resistance sensor has achieved ultra-high sensitivity. As a common strain and pressure sensor, graphene-based resistance sensors have many advantages
6. Flexible sensors: graphene-based materials have shown potential in flexible and stretchable strain and pressure sensors, photodetectors, hall sensors, electrochemical sensors, and biosensors.
Storage Condition:
Graphene should be well sealed, be stored in cool, dry place, avoid direct light. Room temperature storage is OK.
SEM:
