What about trying with Nitronium Tetrafluoroborate CAS#13826-86-3 the reagent is commercially available from Sigma-Aldrich, Alfa Aesar and Acros (shop around you might even be able to find it cheaper). There is an Organic Syntheses procedure for its use, (Organic Syntheses, Coll. Vol. 5, p.480 (1973); Vol. 47, p.56 (1967)) see links.

http://www.sigmaaldrich.com/catalog/product/aldrich/366153?lang=en®ion=US

https://www.alfa.com/en/catalog/B20167/

http://www.orgsyn.org/Content/pdfs/procedures/CV5P0480.pdf

http://www.acros.com/DesktopModules/Acros_Search_Results/Acros_Search_Results.aspx?search_type=CAS&SearchString=13826-86-3

you may need to heat the reaction if your aromatic compound has electron withdrawing groups but this must be carefully done as you have noted that the reaction is exothermic in nature and a lot of toxic gases too,,, Typically start at 0oC then raise to 50oC. Have to experiment to find the optimal temperature.

It may be easier to just see if there are other similar compounds to purchase unless your compound is highly substituted.

I think I use NaNO3 + H2SO4 before but the yield was not good either, but I didn't optimise it further.

I think both KNO3 and NaNO3 (or ammonium nitrate) plus cc. H2SO4 could be nice for you. Maybe KNO3 is the better choice, because it is less hygroscopic, than NaNO3.  Eugene has right, perhaps you should let the tempereture rise a little bit, but be very careful . About ratio of HNO3/H2SO4... Typically from 1:1 to 1:2 (V/V), you should optimize.

I have had some frustrating experience with aromatic nitrations.  In my case, I was nitrating 2-aminopyridine to give a mixture of 3 and 5-nitro-2-aminopyridine.  Nitration first occurred on the amine and then a thermal rearrangement of the nitroamine gave the aromatic nitrated product.  While nitrate salts appeared to work, they unfortunately did not improve the overall yield of the reaction.  I think one of the problems is the relative  insolubility of the nitrate salt in neat H2SO4 but I also think this nitrating mixture is just inconsistent in its results (i.e. variable yields).

There shouldn't be any incompatibilities with using DCM as a solvent but in my experience nitrations are generally done 'neat.'  DCM will only dissolve your nitrate salts very minimally and adding a solvent will probably decrease the rate of your reaction.  Also, I think acids and DCM don't mix/dissolve one another (i.e. your DCM reaction may be biphasic).  I would investigate other nitrating salts that are organic soluble such as copper nitrate or iron nitrate which may give you better results.  I have used copper nitrate as a nitrating source for the nitration of porphyrin derivatives and it provided ~50% yields.

The think that the nitration of pyridine and pyridine analogs require the use of the mixture of nitric acid and trifluoroacetic anhydride.

The nitration of five membred ring systems like furan, pyrrole, thiophene, imidazole, thiophene, etc.... , has usually been carried out either a mixture of nitric acid and sulfuric acid, or in some cases with the mixture of nitric acid and acetic anhydride in lower temperature (- 10 ° C).

I've done nitrations using fuming sulfuric acid (oleum) and solid sodium nitrate.  Dissolving the nitrate salt first is a good idea, as you can do that at room temperature, then cool to 0ºC.  The nitrating strength is a function of the water content, and you can "tune" the reagent by adding water to moderate it, or SO3 to boost it.

it is an ideal case for statistical modelling like - DoE (design of experiment). If you can do that, or you have someone who can help you, this tool will give you all the answers. I use DoE in this kind of problems and I must admit this tool is very nice !

Fuming nitric acid can be easily prepared by distillation, from the mixture of inorganic nitrate and sulfuric acid. As a convenient method of aren's nitration can try a mixture of trifluoroacetic anhydride and NH4NO3  or KNO3.   Our article "Trifluoroacetyl nitrate" will soon be published in the journal "Mendeleev Communication", which was described  the method of nitration of arens.