Biomaterials technology and policies in the building sector: a review

Lin Chen; Yubing Zhang; Zhonghao Chen; Yitong Dong; Yushan Jiang; Jianmin Hua; Yunfei Liu; Ahmed I. Osman; Mohamed Farghali; Lepeng Huang; David W. Rooney; Pow Seng Yap

doi:10.1007/s10311-023-01689-w

Biomaterials technology and policies in the building sector: a review

Lin Chen, Yubing Zhang, Zhonghao Chen, Yitong Dong, Yushan Jiang, Jianmin Hua, Yunfei Liu, Ahmed I. Osman^*, Mohamed Farghali, Lepeng Huang^*, David W. Rooney, Pow Seng Yap^*

^*Corresponding author for this work

Department of Civil Engineering

Research output: Contribution to journal › Review article › peer-review

40 Citations (Scopus)

Abstract

Traditional building materials have some drawbacks in the construction industry, particularly in terms of greenhouse gas emissions and energy consumption. Biomaterials derived from renewable sources are a promising alternative, significantly reducing the greenhouse effect and enhancing energy efficiency. However, traditional materials still dominate the construction sector, and there is a lack of understanding among some policymakers and developers regarding biomaterials. Here, we review building biomaterials and their policies and life cycle assessment through case studies. Bio-based materials have the potential to reduce over 320,000 tons of carbon dioxide emissions by 2050. They also exhibit advantages like decreasing water absorption by 40%, reducing energy consumption by 8.7%, enhancing acoustic absorption by 6.7%, and improving mechanical properties. We summarize recent advancements in mycelial materials, bioconcrete, natural fibers, and fiber-reinforced composites. We also explore the contributions of nanotechnology and microalgae technology in enhancing biomaterials' thermal insulation and eco-friendliness.

Original language	English
Pages (from-to)	715-750
Number of pages	36
Journal	Environmental Chemistry Letters
Volume	22
Issue number	2
Early online date	29 Jan 2024
DOIs	https://doi.org/10.1007/s10311-023-01689-w
Publication status	Published - Apr 2024

Keywords

Climate change
Energy-efficient construction
Green building materials
Life cycle assessment
Recycling biomaterials
Renewable building materials

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/s10311-023-01689-w

Cite this

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title = "Biomaterials technology and policies in the building sector: a review",

abstract = "Traditional building materials have some drawbacks in the construction industry, particularly in terms of greenhouse gas emissions and energy consumption. Biomaterials derived from renewable sources are a promising alternative, significantly reducing the greenhouse effect and enhancing energy efficiency. However, traditional materials still dominate the construction sector, and there is a lack of understanding among some policymakers and developers regarding biomaterials. Here, we review building biomaterials and their policies and life cycle assessment through case studies. Bio-based materials have the potential to reduce over 320,000 tons of carbon dioxide emissions by 2050. They also exhibit advantages like decreasing water absorption by 40%, reducing energy consumption by 8.7%, enhancing acoustic absorption by 6.7%, and improving mechanical properties. We summarize recent advancements in mycelial materials, bioconcrete, natural fibers, and fiber-reinforced composites. We also explore the contributions of nanotechnology and microalgae technology in enhancing biomaterials' thermal insulation and eco-friendliness.",

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author = "Lin Chen and Yubing Zhang and Zhonghao Chen and Yitong Dong and Yushan Jiang and Jianmin Hua and Yunfei Liu and Osman, {Ahmed I.} and Mohamed Farghali and Lepeng Huang and Rooney, {David W.} and Yap, {Pow Seng}",

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AU - Chen, Lin

AU - Zhang, Yubing

AU - Chen, Zhonghao

AU - Dong, Yitong

AU - Jiang, Yushan

AU - Hua, Jianmin

AU - Liu, Yunfei

AU - Osman, Ahmed I.

AU - Farghali, Mohamed

AU - Huang, Lepeng

AU - Rooney, David W.

AU - Yap, Pow Seng

PY - 2024/4

Y1 - 2024/4

N2 - Traditional building materials have some drawbacks in the construction industry, particularly in terms of greenhouse gas emissions and energy consumption. Biomaterials derived from renewable sources are a promising alternative, significantly reducing the greenhouse effect and enhancing energy efficiency. However, traditional materials still dominate the construction sector, and there is a lack of understanding among some policymakers and developers regarding biomaterials. Here, we review building biomaterials and their policies and life cycle assessment through case studies. Bio-based materials have the potential to reduce over 320,000 tons of carbon dioxide emissions by 2050. They also exhibit advantages like decreasing water absorption by 40%, reducing energy consumption by 8.7%, enhancing acoustic absorption by 6.7%, and improving mechanical properties. We summarize recent advancements in mycelial materials, bioconcrete, natural fibers, and fiber-reinforced composites. We also explore the contributions of nanotechnology and microalgae technology in enhancing biomaterials' thermal insulation and eco-friendliness.

AB - Traditional building materials have some drawbacks in the construction industry, particularly in terms of greenhouse gas emissions and energy consumption. Biomaterials derived from renewable sources are a promising alternative, significantly reducing the greenhouse effect and enhancing energy efficiency. However, traditional materials still dominate the construction sector, and there is a lack of understanding among some policymakers and developers regarding biomaterials. Here, we review building biomaterials and their policies and life cycle assessment through case studies. Bio-based materials have the potential to reduce over 320,000 tons of carbon dioxide emissions by 2050. They also exhibit advantages like decreasing water absorption by 40%, reducing energy consumption by 8.7%, enhancing acoustic absorption by 6.7%, and improving mechanical properties. We summarize recent advancements in mycelial materials, bioconcrete, natural fibers, and fiber-reinforced composites. We also explore the contributions of nanotechnology and microalgae technology in enhancing biomaterials' thermal insulation and eco-friendliness.

KW - Climate change

KW - Energy-efficient construction

KW - Green building materials

KW - Life cycle assessment

KW - Recycling biomaterials

KW - Renewable building materials

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