Mechanoluminescent hybrids from a natural resource for energy‐related applications
Abstract Mechanoluminescent (ML) materials that directly convert mechanical energy into photon emission have emerged as promising candidates for various applications. Despite the recent advances in the development of both novel and conventional ML materials, the limited access to ML materials that s...
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Wiley
2021
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oai:doaj.org-article:81f86903adc7483290fc622c3ddfc0782021-11-16T06:26:52ZMechanoluminescent hybrids from a natural resource for energy‐related applications2567-316510.1002/inf2.12250https://doaj.org/article/81f86903adc7483290fc622c3ddfc0782021-11-01T00:00:00Zhttps://doi.org/10.1002/inf2.12250https://doaj.org/toc/2567-3165Abstract Mechanoluminescent (ML) materials that directly convert mechanical energy into photon emission have emerged as promising candidates for various applications. Despite the recent advances in the development of both novel and conventional ML materials, the limited access to ML materials that simultaneously have the attributes of high brightness, low cost, self‐recovery, and stability, and the lack of appropriate designs for constructing ML devices represent significant challenges that remain to be addressed to boost the practical application of ML materials. Herein, ML hybrids derived from a natural source, waste eggshell, with the aforementioned attributes are demonstrated. The introduction of the eggshell not only enables the preparation of the hybrid in a simple and cost‐effective manner but also contributes to the homochromatism (red, green, or blue emission), high brightness, and robustness of the resultant ML hybrids. The significant properties of the ML hybrids, together with the proposed structural design, such as porosity or core–shell structure, could expedite a series of mechanic‐optical applications, including the self‐luminous shoes for the conversion of human motions into light and light generators that efficiently harvest water wave energy. The fascinating properties, versatile designs, and the efficient protocol of “turning waste into treasure” of the ML hybrids represent significant advances in ML materials, promising a leap to the practical applications of this flouring material family.Chunfeng WangRonghua MaDengfeng PengXianhu LiuJing LiBoru JinAixian ShanYu FuLin DongWenchao GaoZhong Lin WangCaofeng PanWileyarticleblue energy harvestingeggshell wastemechanoluminescent hybridssmart sensingMaterials of engineering and construction. Mechanics of materialsTA401-492Information technologyT58.5-58.64ENInfoMat, Vol 3, Iss 11, Pp 1272-1284 (2021) |
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blue energy harvesting eggshell waste mechanoluminescent hybrids smart sensing Materials of engineering and construction. Mechanics of materials TA401-492 Information technology T58.5-58.64 |
| spellingShingle |
blue energy harvesting eggshell waste mechanoluminescent hybrids smart sensing Materials of engineering and construction. Mechanics of materials TA401-492 Information technology T58.5-58.64 Chunfeng Wang Ronghua Ma Dengfeng Peng Xianhu Liu Jing Li Boru Jin Aixian Shan Yu Fu Lin Dong Wenchao Gao Zhong Lin Wang Caofeng Pan Mechanoluminescent hybrids from a natural resource for energy‐related applications |
| description |
Abstract Mechanoluminescent (ML) materials that directly convert mechanical energy into photon emission have emerged as promising candidates for various applications. Despite the recent advances in the development of both novel and conventional ML materials, the limited access to ML materials that simultaneously have the attributes of high brightness, low cost, self‐recovery, and stability, and the lack of appropriate designs for constructing ML devices represent significant challenges that remain to be addressed to boost the practical application of ML materials. Herein, ML hybrids derived from a natural source, waste eggshell, with the aforementioned attributes are demonstrated. The introduction of the eggshell not only enables the preparation of the hybrid in a simple and cost‐effective manner but also contributes to the homochromatism (red, green, or blue emission), high brightness, and robustness of the resultant ML hybrids. The significant properties of the ML hybrids, together with the proposed structural design, such as porosity or core–shell structure, could expedite a series of mechanic‐optical applications, including the self‐luminous shoes for the conversion of human motions into light and light generators that efficiently harvest water wave energy. The fascinating properties, versatile designs, and the efficient protocol of “turning waste into treasure” of the ML hybrids represent significant advances in ML materials, promising a leap to the practical applications of this flouring material family. |
| format |
article |
| author |
Chunfeng Wang Ronghua Ma Dengfeng Peng Xianhu Liu Jing Li Boru Jin Aixian Shan Yu Fu Lin Dong Wenchao Gao Zhong Lin Wang Caofeng Pan |
| author_facet |
Chunfeng Wang Ronghua Ma Dengfeng Peng Xianhu Liu Jing Li Boru Jin Aixian Shan Yu Fu Lin Dong Wenchao Gao Zhong Lin Wang Caofeng Pan |
| author_sort |
Chunfeng Wang |
| title |
Mechanoluminescent hybrids from a natural resource for energy‐related applications |
| title_short |
Mechanoluminescent hybrids from a natural resource for energy‐related applications |
| title_full |
Mechanoluminescent hybrids from a natural resource for energy‐related applications |
| title_fullStr |
Mechanoluminescent hybrids from a natural resource for energy‐related applications |
| title_full_unstemmed |
Mechanoluminescent hybrids from a natural resource for energy‐related applications |
| title_sort |
mechanoluminescent hybrids from a natural resource for energy‐related applications |
| publisher |
Wiley |
| publishDate |
2021 |
| url |
https://doaj.org/article/81f86903adc7483290fc622c3ddfc078 |
| work_keys_str_mv |
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