Organic ionic plastic crystals having colossal barocaloric effects for sustainable refrigeration

Samantha L. Piper; Leena Melag; Mega Kar; Azra Sourjah; Xiong Xiao; Eric F. May; Kondo Francois Aguey-Zinsou; Douglas R. MacFarlane; Jennifer M. Pringle

doi:10.1126/science.adq8396

Organic ionic plastic crystals having colossal barocaloric effects for sustainable refrigeration

Samantha L. Piper, Leena Melag, Mega Kar, Azra Sourjah, Xiong Xiao, Eric F. May, Kondo Francois Aguey-Zinsou, Douglas R. MacFarlane, Jennifer M. Pringle

Chemical Engineering

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Abstract

Barocaloric (BC) materials offer the potential for highly energy-efficient refrigeration by generating heat absorption through the effect of pressure on a solid-solid phase transition. However, very few of the known materials have the required phase transition in the temperature regions necessary for domestic refrigeration or air conditioning. We introduce organic ionic plastic crystals (OIPCs) as a new family of BC materials. OIPCs display subambient transition temperatures, so-called "colossal" entropy changes (92 to 240 joules per kilogram per kelvin), and a high sensitivity to pressure, up to 23.7 kelvin per kilobar. The BC responses achieved with these prototype OIPC-BCs are tunable through structural modification of the ions; this wide matrix of possible combinations of structure and function indicates the scope of OIPCs as a new class of material for efficient and sustainable cooling technologies.

Original language	English
Pages (from-to)	56-62
Number of pages	7
Journal	Science
Volume	387
Issue number	6729
DOIs	https://doi.org/10.1126/science.adq8396
Publication status	Published - 3 Jan 2025

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abstract = "Barocaloric (BC) materials offer the potential for highly energy-efficient refrigeration by generating heat absorption through the effect of pressure on a solid-solid phase transition. However, very few of the known materials have the required phase transition in the temperature regions necessary for domestic refrigeration or air conditioning. We introduce organic ionic plastic crystals (OIPCs) as a new family of BC materials. OIPCs display subambient transition temperatures, so-called {"}colossal{"} entropy changes (92 to 240 joules per kilogram per kelvin), and a high sensitivity to pressure, up to 23.7 kelvin per kilobar. The BC responses achieved with these prototype OIPC-BCs are tunable through structural modification of the ions; this wide matrix of possible combinations of structure and function indicates the scope of OIPCs as a new class of material for efficient and sustainable cooling technologies.",

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T1 - Organic ionic plastic crystals having colossal barocaloric effects for sustainable refrigeration

AU - Piper, Samantha L.

AU - Melag, Leena

AU - Kar, Mega

AU - Sourjah, Azra

AU - Xiao, Xiong

AU - May, Eric F.

AU - Aguey-Zinsou, Kondo Francois

AU - MacFarlane, Douglas R.

AU - Pringle, Jennifer M.

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Y1 - 2025/1/3

N2 - Barocaloric (BC) materials offer the potential for highly energy-efficient refrigeration by generating heat absorption through the effect of pressure on a solid-solid phase transition. However, very few of the known materials have the required phase transition in the temperature regions necessary for domestic refrigeration or air conditioning. We introduce organic ionic plastic crystals (OIPCs) as a new family of BC materials. OIPCs display subambient transition temperatures, so-called "colossal" entropy changes (92 to 240 joules per kilogram per kelvin), and a high sensitivity to pressure, up to 23.7 kelvin per kilobar. The BC responses achieved with these prototype OIPC-BCs are tunable through structural modification of the ions; this wide matrix of possible combinations of structure and function indicates the scope of OIPCs as a new class of material for efficient and sustainable cooling technologies.

AB - Barocaloric (BC) materials offer the potential for highly energy-efficient refrigeration by generating heat absorption through the effect of pressure on a solid-solid phase transition. However, very few of the known materials have the required phase transition in the temperature regions necessary for domestic refrigeration or air conditioning. We introduce organic ionic plastic crystals (OIPCs) as a new family of BC materials. OIPCs display subambient transition temperatures, so-called "colossal" entropy changes (92 to 240 joules per kilogram per kelvin), and a high sensitivity to pressure, up to 23.7 kelvin per kilobar. The BC responses achieved with these prototype OIPC-BCs are tunable through structural modification of the ions; this wide matrix of possible combinations of structure and function indicates the scope of OIPCs as a new class of material for efficient and sustainable cooling technologies.

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JO - Science

JF - Science

IS - 6729

ER -

Organic ionic plastic crystals having colossal barocaloric effects for sustainable refrigeration

Abstract

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