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“Background Hybrid structures based on nanowires and nanotubes grown on solid matrices are promising materials for various applications ranging from nanoelectronics [1, 2] and biotechnology [3] to superhydrophobic surfaces [4], reinforced composite materials [5] and polymers [6]. Application of the hybrid nanotube-based structures for water desalination can have alluring prospects [7, 8]. Among others, nanoporous aluminium oxide (alumina) membranes are often used as a base for such structures CHIR-99021 in vitro [9, 10]. Carbon nanotubes embedded in the nanoporous alumina membrane demonstrate promising properties [11], but controllability of the nanotube growth in the membrane is still a challenge. Carbon nanotubes and graphene flakes have been successfully grown using high-temperature reactions in the gas phase [12, 13]. However, this method has not been able to synthesize nanotube NU7441 price arrays and meshes with controlled structure and morphology. In particular, it is still a challenge to grow carbon nanotubes selectively in the channels only or on the membrane surface.