Energy efficiency in buildings requires adequate materials for thermal insulation. Given the enormous number of buildings worldwide needing a retrofit to improve their energy efficiency, it is of capital importance to identify materials suitable for sustainable thermal insulation. Among the many available insulators, polyurethanes occupy a preeminent role, given their versatility and effectiveness, and are thus expected to be extensively used in retrofitting buildings for improving their energy efficiency. Herein, the currently available bio-derived or recyclable polyurethane-based composites, considering them as either foams (i.e., with gaseous filler) or fully solid (i.e., with solid filler) composites, are assessed. The first section of the review is devoted to bioderived PUs as matrices for thermally insulating composites; the second section focuses on bio-derived/recyclable fillers adopted with PUs as matrices, with specific reference to silica-based aerogels. The main issues of the surveyed bio-based composites are analyzed, and the future prospects of these materials, that are actually sustainable but at the same time performance effective, are discussed.Energy efficiency in buildings can be boosted by appropriate thermal insulators, which must be recyclable/environmentallly sustainable. Herein, the state of the art for sustainable micro-/nanocomposites aimed at thermal insulation, with an eye on bio-based polyurethanes as matrices and silica aerogel as fillers, is assessed. The future prospects of these materials, actually sustainable but at the same time performance effective, are discussed.image (c) 2023 WILEY-VCH GmbH
Sustainable Micro‐ and Nanocomposites for Thermal Insulation in Buildings
Fraleoni‐Morgera, Alessandro
;Afshani, Mohsen;Montelpare, Sergio;Lops, Camilla
2024-01-01
Abstract
Energy efficiency in buildings requires adequate materials for thermal insulation. Given the enormous number of buildings worldwide needing a retrofit to improve their energy efficiency, it is of capital importance to identify materials suitable for sustainable thermal insulation. Among the many available insulators, polyurethanes occupy a preeminent role, given their versatility and effectiveness, and are thus expected to be extensively used in retrofitting buildings for improving their energy efficiency. Herein, the currently available bio-derived or recyclable polyurethane-based composites, considering them as either foams (i.e., with gaseous filler) or fully solid (i.e., with solid filler) composites, are assessed. The first section of the review is devoted to bioderived PUs as matrices for thermally insulating composites; the second section focuses on bio-derived/recyclable fillers adopted with PUs as matrices, with specific reference to silica-based aerogels. The main issues of the surveyed bio-based composites are analyzed, and the future prospects of these materials, that are actually sustainable but at the same time performance effective, are discussed.Energy efficiency in buildings can be boosted by appropriate thermal insulators, which must be recyclable/environmentallly sustainable. Herein, the state of the art for sustainable micro-/nanocomposites aimed at thermal insulation, with an eye on bio-based polyurethanes as matrices and silica aerogel as fillers, is assessed. The future prospects of these materials, actually sustainable but at the same time performance effective, are discussed.image (c) 2023 WILEY-VCH GmbHI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.