The new sQube® colloidal probe combines the well-known features of the proven NANOSENSORS™ NCH series such as high application versatility and compatibility with most commercial SPMs with a reproducible sphere radius instead of a sharp tip. The excellent radius and the minimized variation of diameter provide reproducible signals.
NCH AFM probes are designed for non-contact mode or tapping mode AFM (also known as: attractive or dynamic mode).
The so called "Colloidal Probe Technique", where single colloids are attached to AFM cantilevers for force measurements, opens the chance for a better understanding of fundamental interactions in a variety of fields.
Examples are adhesion phenomena, particle-surface-interactions, mechanical properties, suspensions, hydrodynamics and boundary slip - to name just some out of an increasing number of applications.
The probe offers unique features:
- sphere material: silicon dioxide (SiO2)
- excellent sphere diameter:
A = 2 µm, B = 3.5 µm, C = 6.62 µm, D = 10.2 µm, or E = 15 µm (all +/- 5%)
(Due to different masses the resonance frequency can differ.)
Please choose A, B, C, D, or E when ordering!
- highly doped silicon cantilever to dissipate static charge
- chemically inert
- high mechanical Q-factor for high sensitivity
- precise alignment of the cantilever position when used together with the Alignment chip
(within +/- 2 µm)
- compatible with PointProbe® Plus XY-Alignment Series
如果有必要,我们是提供所有主要 AFM 探针品牌的唯一来源。除了 AFM 尖端和悬臂,NanoAndMore 还提供不同种类的扫描探针显微镜和纳米技术相关设备。
NANOSENSORS™ - 1990 年,NANOSENSORS™ 是第一家商业化制造AFM 探针的公司。NANOSENSORS™ 仍然是全球技术领先者,提供最一致的AFM 探针质量,从而确保为其客户提供最可重复的测量结果。
NANOSENSORS™ 提供最广泛的高质量标准和专业AFM 探针,以及用于扫描探针显微镜的校准标准和对准芯片。
NanoWorld™ - 总部位于瑞士的 NanoWorld AG 是硅和氮化硅AFM 探针和各种纳米科学和纳米技术应用校准标准的领先制造商。
NanoWorld AG 广泛的高质量AFM 探针被材料研究、生物学、化学、生命科学和许多其他学科领域的研究人员使用。
BudgetSensors® - BudgetSensors 为原子力显微镜 (AFM) 社区提供价格合理的高质量AFM 探针。
MikroMasch®是一家知名的廉价AFM 探针、测试光栅和 HOPG制造商。他们的 AFM 探针标准系列是HQ:Line(高质量系列)。
MikroMasch® 专业产品包括用于高分辨率成像的 1nm 碳尖峰尖端( Hi'ResC 系列)。
OPUS™是MikroMasch®的独立AFM 探针系列,具有特殊的尖端形状。OPUS™ AFM 吸头正好位于悬臂的末端,这样可以将吸头顶点精确定位在样品表面的感兴趣区域上。