No, it is not possible for electrons to be bonded in a baryon-like particle. Baryons are a class of particles that are composed of three quarks, such as protons and neutrons. Quarks are elementary particles that interact through the strong nuclear force, which is significantly stronger than the electromagnetic force.
Electrons, on the other hand, are elementary particles that carry a negative electric charge and are not composed of quarks. They interact with other particles primarily through the electromagnetic force.
The electromagnetic force is responsible for the formation of chemical bonds and the binding of electrons in atoms and molecules. Electrons can form covalent, ionic, or metallic bonds, depending on the specific arrangement of atoms and their electron configurations.
In a baryon-like particle, which is composed of quarks, the strong nuclear force dominates the behavior of the constituents. This force acts on quarks, not on electrons. The electromagnetic interactions between electrons are typically much weaker compared to the strong nuclear force.
Therefore, it is not possible for electrons to be directly bonded in a baryon-like particle. The forces and interactions involved in the formation of baryons and the bonding of electrons are fundamentally different.