A model for the structure of comet nuclei is proposed based on the results of the investigations of carbonaceous substances from the epicenter of the Tunguska cosmic body (TCB) explosion. According to this model the comet nucleus structure is a conglomerate of micron sized ice granules covered with organic materials that have dust particles as their nuclei. Such structure could be formed at a stage of continuous temperature decrease in the protoplanetary nebula. After the water vapour has condensed onto the dust particles, organic molecules and gases such as NH₃, CO₂, H₂S, etc. are precipitated on the surfaces of ice-covered grains. Under the influence of different types of radiation (for example, cosmic rays) and thermal processing the polymerization of the initial components takes place and as a result carbon-chain and more complex molecules are formed^*.

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^*Editorial note: This paper suggests several new ideas about the solar nebula and the formation and composition of comet nuclei based on investigations of the Tunguska event. However, many of these ideas are hypotheses that still need experimental verification or theoretical modeling based on well-established principles of physics and chemistry.