A dynamic thermoregulatory material inspired by squid skin

[1]  Rylan Kautz,et al.  Dynamic materials inspired by cephalopods , 2016, Organic and Hybrid Sensors and Bioelectronics XIII.

[2]  nasa,et al.  Reflecting on Space Benefits: A Shining Example , 2019 .

[3]  Kumar Saurav,et al.  Reducing Energy Consumption for Space Heating by Changing Zone Temperature: Pilot Trial in Luleå, Sweden , 2018, e-Energy.

[4]  Alon A Gorodetsky,et al.  Adaptive infrared-reflecting systems inspired by cephalopods , 2018, Science.

[5]  Junqiao Wu,et al.  Thermal diodes, regulators, and switches: Physical mechanisms and potential applications , 2017 .

[6]  Yang Wang,et al.  A state of art review on methodologies for heat transfer and energy flow characteristics of the active building envelopes , 2017 .

[7]  Shanhui Fan,et al.  Warming up human body by nanoporous metallized polyethylene textile , 2017, Nature Communications.

[8]  Neha Gupta,et al.  Review of passive heating/cooling systems of buildings , 2016 .

[9]  Yasunori Kikuchi,et al.  Distributed Cogeneration of Power and Heat within an Energy Management Strategy for Mitigating Fossil Fuel Consumption , 2016 .

[10]  Sanlin S. Robinson,et al.  Highly stretchable electroluminescent skin for optical signaling and tactile sensing , 2016, Science.

[11]  Agustín R. González-Elipe,et al.  Perspectives on oblique angle deposition of thin films: From fundamentals to devices , 2016 .

[12]  S. Boriskina,et al.  Infrared-Transparent Visible-Opaque Fabrics for Wearable Personal Thermal Management , 2015, 1507.04269.

[13]  L. Hanssen,et al.  Infrared Optical Properties of Materials , 2015 .

[14]  Lucy E. Dunne,et al.  Functional Clothing Design: From Sportswear to Spacesuits , 2015 .

[15]  Luisa F. Cabeza,et al.  Heating and cooling energy trends and drivers in buildings , 2015 .

[16]  Xuanhe Zhao,et al.  Cephalopod-inspired design of electro-mechano-chemically responsive elastomers for on-demand fluorescent patterning , 2014, Nature Communications.

[17]  Xian Huang,et al.  Adaptive optoelectronic camouflage systems with designs inspired by cephalopod skins , 2014, Proceedings of the National Academy of Sciences.

[18]  Peter J. Shirron,et al.  Heat switches for ADRs , 2014 .

[19]  Alessandro Chiolerio,et al.  Wearable Electronics and Smart Textiles: A Critical Review , 2014, Sensors.

[20]  M. John,et al.  Peri‐operative warming devices: performance and clinical application , 2014, Anaesthesia.

[21]  Li Shi,et al.  Emerging challenges and materials for thermal management of electronics , 2014 .

[22]  J. Drobny 16 – Recycling of Thermoplastic Elastomers , 2014 .

[23]  T. Wardill,et al.  Chromatophore radial muscle fibers anchor in flexible squid skin , 2013 .

[24]  G. Hays,et al.  Identification of genetically and oceanographically distinct blooms of jellyfish , 2013, Journal of The Royal Society Interface.

[25]  R. Naik,et al.  Biological versus electronic adaptive coloration: how can one inform the other? , 2013, Journal of The Royal Society Interface.

[26]  Jonathan Rossiter,et al.  Biomimetic chromatophores for camouflage and soft active surfaces , 2012, Bioinspiration & biomimetics.

[27]  Gang Zhang,et al.  Colloquium : Phononics: Manipulating heat flow with electronic analogs and beyond , 2011, 1108.6120.

[28]  Mark F. Ahlers,et al.  Aircraft Thermal Management , 2011 .

[29]  R. Hanlon,et al.  Mechanics of the Cephalopod Chromatophore Layer: Structural Characterization of Cephalopod Chromatophores , 2011 .

[30]  K. Oka,et al.  Chromatophore Activity during Natural Pattern Expression by the Squid Sepioteuthis lessoniana: Contributions of Miniature Oscillation , 2011, PloS one.

[31]  Xingcun Colin Tong,et al.  Advanced Materials for Thermal Management of Electronic Packaging , 2011 .

[32]  Roger T Hanlon,et al.  Mechanisms and behavioural functions of structural coloration in cephalopods , 2009, Journal of The Royal Society Interface.

[33]  Jay Singh,et al.  Performance comparison of thermal insulated packaging boxes, bags and refrigerants for single‐parcel shipments , 2008 .

[34]  Kwang Ho Lee,et al.  Energy savings from extended air temperature setpoints and reductions in room air mixing - eScholarship , 2005 .

[35]  Sadik Kakac,et al.  Microscale heat transfer : fundamentals and applications , 2005 .

[36]  C. Vasile,et al.  SPECTRAL AND THERMAL CHARACTERIZATION OF STYRENE- BUTADIENE COPOLYMERS WITH DIFFERENT ARCHITECTURES , 2005 .

[37]  J. Messenger,et al.  Cephalopod chromatophores: neurobiology and natural history , 2001, Biological reviews of the Cambridge Philosophical Society.

[38]  M. Edge,et al.  Degradation and stabilisation of styrene–ethylene–butadiene–styrene (SEBS) block copolymer , 2000 .

[39]  J. C. Stevens,et al.  Temperature sensitivity of the body surface over the life span. , 1998, Somatosensory & motor research.

[40]  Ken Parsons,et al.  Human Thermal Environments , 1993 .

[41]  Standard Ashrae Thermal Environmental Conditions for Human Occupancy , 1992 .

[42]  O G Edholm,et al.  Temperature and blood flow in the human forearm , 1946, The Journal of physiology.