Journal Article10.1002/ADMA.201401449
Bioinspired Engineering of Thermal Materials
Peng Tao,Wen Shang,Chengyi Song,Qingchen Shen,Fangyu Zhang,Zhen Luo,Nan Yi,Di Zhang,Tao Deng +8 more
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TL;DR: State-of-the-art developments of bioinspired thermal-management materials, including materials for efficient thermal insulation and heat transfer, and bioinspired materials for thermal/infrared detection, are highlighted.
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Abstract: In the development of next-generation materials with enhanced thermal properties, biological systems in nature provide many examples that have exceptional structural designs and unparalleled performance in their thermal or nonthermal functions. Bioinspired engineering thus offers great promise in the synthesis and fabrication of thermal materials that are difficult to engineer through conventional approaches. In this review, recent progress in the emerging area of bioinspired advanced materials for thermal science and technology is summarized. State-of-the-art developments of bioinspired thermal-management materials, including materials for efficient thermal insulation and heat transfer, and bioinspired materials for thermal/infrared detection, are highlighted. The dynamic balance of bioinspiration and practical engineering, the correlation of inspiration approaches with the targeted applications, and the coexistence of molecule-based inspiration and structure-based inspiration are discussed in the overview of the development. The long-term outlook and short-term focus of this critical area of advanced materials engineering are also presented.
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Controllable fabrication of tendril-inspired hierarchical hybrid membrane for efficient recovering tellurium from photovoltaic waste
TL;DR: Inspired by the winding of tendrils, a membrane-based adsorbent for tellurium separation has been fabricated via winding calcined micron-sized Mg-Al layer double hydroxides (LDHs) fibers with the acid of ultralong MnO2 nanowires (UL-MnO2-NWs) as discussed by the authors.
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Bean-Pod-Inspired 3D-Printed Phase Change Microlattices for Solar-Thermal Energy Harvesting and Storage.
Zhengpeng Yang,Shengmin Jia,Yutao Niu,Xiaoting Lv,Huili Fu,Yongyi Zhang,Yongyi Zhang,Liu Dapeng,Bin Wang,Qingwen Li,Qingwen Li +10 more
TL;DR: In this article, a facile and scalable extrusion-based core-sheath 3D printing strategy is demonstrated for directly constructing bean-pod-structured octadecane (OD)/graphene (BOG) phase change microlattices, with regular porous configuration as well as individual and effective encapsulation of OD "beans" into highly interconnected graphene network wrapping layer built by closely stacked and aligned graphene sheets.
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Skin‐Inspired Low‐Grade Heat Energy Harvesting Using Directed Ionic Flow through Conical Nanochannels
Ganhua Xie,Pei Li,Zhen Zhang,Kai Xiao,Xiang-Yu Kong,Liping Wen,Liping Wen,Lei Jiang,Lei Jiang +8 more
Abstract: Low‐grade heat energies are ubiquitous, and most of these energies are untapped as heated river water or seawater. Therefore, it is meaningful and valuable to extract the stored energies in the context of the energy crisis by using a simple device with low‐cost effectiveness. Here, a simple thermoelectric conversion system is shown using directed ionic flow through the biomimetic smart nanochannels, inspired by the human skin. The obtained power density of the nanodevice can ideally be 88.8 W m−2 with a membrane temperature gradient (ΔT) of 40 °C. As proof of concept, it is demonstrated that the principle can be introduced into simple and portable prototypes to harvest low‐grade heat. Such a thermoelectric conversion apparatus provides a new venue for low‐grade heat harvesting. In addition, this self‐powered system may extend the electronic skin field and find applications in skin prosthetics.
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Nacre‐Mimetic Nanocomposite Aerogels with Exceptional Mechanical Performance for Thermal Superinsulation at Extreme Conditions
TL;DR: In this article , a nacre-mimetic nanocomposite aerogel, synthesized via in situ growth of inorganic minerals in a lamellar cellulose nanofibrous network, is reported.
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Flexible heat pipes with integrated bioinspired design
TL;DR: In this paper, the authors report the facile fabrication and performance evaluation of flexible heat pipes that have integrated bioinspired wick structures and flexible polyurethane polymer connector design between the copper condenser and evaporator.
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