Hello, I cannot link a paper (others may) but my feeling based on the discussions here and elsewhere is that there is generally a consensus that batch effects based on flow cells and even different Illumina machines (at least the more recent ones) are minimal to basically non-existing. The true technical variation comes prior to the sequencing (RNA extraction, kits for library prep, presence of contaminants, RNA degradation), whereas the sequencing itself stards from the final DNA library (notably more robust than RNA, little change of contaminant-based degradation) and is extremely standardized based on the Illumina guidelines. I am sure you are aware on how to diagnose all this post-hoc using PCA (or similar) but as said I would not expect and relevant batch effect. It was and is standard to split runs over different lanes or flow cells, especially in the era before the Novaseq came out and outputs per run were smaller.

You could also pool all libraries into a single tube and then run across as many lanes/flowcells you need to achieve the desired depth, so a potential batch effect would not confound certain samples.

Follow ATpoint 's suggestion:

You could also pool all libraries into a single tube and then run across as many lanes/flowcells you need to achieve the desired depth, so a potential batch effect would not confound certain samples.

Where possible use largest flowcell e.g. S4. They are more economical anyway. For 100 samples x 30 million reads each you are looking at most 2 lanes on S4 flowcell (or a S2 FC) for human samples. If you have a smaller genome then you will be looking at fewer reads. Be sure to ask your provider to prep the libraries at the same time to reduce any batch effects there. At 100 samples they will likely be using a robot. Doing a test MiSeq nano run to balance the library pool is well worth the small investment in cost.