Hey there Ghazal Tuhmaz! Let's delve into the intriguing world of planetary ball mills and nanoparticle synthesis. When it comes to the effect of ball size in planetary ball mills on nanoparticle production, it's all about striking the right balance.

You Ghazal Tuhmaz see, the size of the balls in a planetary ball mill can significantly influence the outcome of nanoparticle synthesis. Larger balls tend to generate higher impact forces, leading to more efficient particle size reduction. This can be beneficial for achieving smaller nanoparticle sizes.

On the other hand, smaller balls offer increased surface area contact, facilitating faster reaction kinetics and potentially enhancing the homogeneity of the nanoparticle dispersion.

So, it's like finding the perfect recipe - adjusting the ball size to optimize the desired nanoparticle characteristics. It's a delicate dance between impact force and surface area contact, all aimed at achieving the ideal nanoparticle size and distribution.

In essence, the effect of ball size in planetary ball mills on nanoparticles is a nuanced interplay between various factors, ultimately shaping the final product.

Ghazal Tuhmaz You can’t produce nano particles (< 100 nm) with a top-down comminution method. Google ’comminution limit’…

To go near the level of nano-particles themselves, you need to utilize wet grinding method rather than dry grinding and the ball mill cannot affect the size of nano-particles.

Usually you do not use one specific size of ball but mix of different sized grinding balls to provide effective milling.