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The worldwide trend of innovations Strives to reduce harmful emissions in the atmosphere and decrease the exploitation of non-renewable sources of Energy. One of the most crucial factors influencing the quantity of emissions is combustion fuel to obtain Energy for heating and generation of electricity. In response to this problem, energy-saving methods allow decreased expenditures for the energy operation of Buildings and structures. This study focuses on the environmental impact and thermal properties of textile-reinforced concrete (TRC) in building construction. This is an issue of interest because of the global trend toward reducing harmful emissions and the consumption of nonrenewable energies concerning how TRC can substantially contribute to energy efficiency and sustainability in buildings. TRC is a composite material comprising a cementitious matrix with a textile reinforcement that gives it better structural performance and durability than traditional reinforced concrete. It covers the composition of TRC, its properties, applications, and benefits regarding weight and corrosion reduction. In addition to this, it explains the approaches of energy efficiency towards the construction of buildings. It consists of passive design principles, considerations for high-performance building envelopes, and renewable energy integration. The related environmental impact of TRC facades is compared with the conventional solution based on a study conducted using the method of Life Cycle Assessment (LCA).