Thermally conductive electromagnetically absorptive material

What is claimed is: 1. A thermally conductive electromagnetically absorbing material comprising a plurality of particles dispersed in a binder, the plurality of particles comprising all particles dispersed in the binder for increasing electromagnetic absorption or thermal conductivity of the material, the plurality of particles consisting of a plurality of first particles having a first Dv50 size a1 and a plurality of second particles having a second Dv50 size a2, a1/a2≥1.5, the first particles comprising at most 1% of a total number of the first and second particles and being more electromagnetically absorbing than the second particles, such that the material has a thermal conductivity of at least 2 W/(m-K) along at least one direction, and for an at least one frequency in a frequency range from about 20 GHz to about 120 GHz, the material: has a relative real permittivity of less than about 10; and attenuates a substantially normally incident radiation having the at least one frequency by at least 5 dB/mm. 2. The thermally conductive electromagnetically absorbing material of claim 1 , wherein the plurality of first particles has a particle size distribution comprising a peak at a particle size d1, the plurality of second particles has a particle size distribution comprising peaks at particle sizes S1 and S2, and d1>S1 and S2. 3. The thermally conductive electromagnetically absorbing material of claim 1 , wherein for the at least one frequency, the material has a loss tangent of at least 0.1. 4. An article comprising an anti-reflection film for at least one frequency in a range of about 20 GHz to about 120 GHz disposed on a layer comprising the thermally conductive electromagnetically absorbing material of claim 1 . 5. A fifth generation (5G) wireless communication system comprising an antenna comprising an array of distinct spaced apart antenna elements configured to at least one of receive and transmit a signal having a frequency of between about 20 GHz and about 120 GHz; and the thermally conductive electromagnetically absorbing material of claim 1 disposed between at least two antenna elements in the array of antenna elements. 6. The thermally conductive electromagnetically absorbing material of claim 1 , wherein the first particles are thermally conductive particles at least partially coated with an electromagnetically absorptive coating and the second particles are thermally conductive and substantially electromagnetically non-absorptive.