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27 Jan 07:09

Air Bonsai: Levitating Magnetic Bonsai Trees by Hoshinchu

by Christopher Jobson

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Despite the visual beauty and life-giving nature of plants, there’s always been one main problem with our vegetative friends: plants can’t fly. A small company called Hoshinchu based out of Kyushu, Japan, recently set out to fix the problem that evolution forgot by inventing the Air Bonsai, a system for magnetically levitating small bonsai trees several inches above a small electrified pedestal. The system allows you to create your own miniature Avatar-like worlds with tiny trees or shrubs planted in balls of moss, but is also powerful enough to suspend special ceramic dishes of fragments of lava rock.

Air Bonsai is currently funding like crazy on Kickstarter and is availble in a number of configurations starting with a base DIY kit for $200 that requires you to use your own plants up to more elaborate designs that may only ship in Japan. (via Spoon & Tamago)

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11 Nov 19:06

Chemically Bonded Phosphorus/Graphene Hybrid as a High Performance Anode for Sodium-Ion Batteries

by Jiangxuan Song, Zhaoxin Yu, Mikhail L. Gordin, Shi Hu, Ran Yi, Duihai Tang, Timothy Walter, Michael Regula, Daiwon Choi, Xiaolin Li, Ayyakkannu Manivannan and Donghai Wang

TOC Graphic

Nano Letters
DOI: 10.1021/nl502759z
17 Oct 09:22

Mesocrystals as electrode materials for lithium-ion batteries

Publication date: August 2014
Source:Nano Today, Volume 9, Issue 4
Author(s): Evan Uchaker , Guozhong Cao
Lithium-ion batteries are a well-established technology that has seen gains in performance based on materials chemistry over the past two decades. Although there are many material selections available when assembling such a device, the fundamental design and structure remains the same – two electrodes of different potential separated by an intermediary electrolyte. Despite recent advancements with electrode materials, considerable improvements in energy density and stability are still necessary in order to achieve energy storage parity. The design of structurally oriented nanoparticles can circumvent the thermodynamic instability, undesired side reactions, high processing costs, and potential nano-toxicity effects associated with nanoparticle synthesis, processing, and use. A great deal of recent efforts have focused on the formation and understanding of ordered nanoparticle superstructures with a vast range of architectures; in particular, crystallographically oriented nanoparticle superstructures, or mesocrystals. Mesocrystals can be delineated by their high degree of crystallinity, porosity, and nanoparticle subunit alignment along a crystallographic register. Given their unique combination of nanoparticle properties and order over a microscopic size regime, mesocrystals have strong potential as active materials for lithium-ion battery electrodes. Such assemblies would possess the structural and chemical stability of microsized electrodes while exploiting the beneficial properties associated with nanosized electrodes and their large reactive surface area.

Graphical abstract

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10 Oct 18:21

A quinone-based oligomeric lithium salt for superior Li-organic batteries

Energy Environ. Sci., 2014, 7,4077-4086
DOI: 10.1039/C4EE02575J, Paper
Zhiping Song, Yumin Qian, Xizheng Liu, Tao Zhang, Yanbei Zhu, Haijun Yu, Minoru Otani, Haoshen Zhou
By combining OLiO coordination bond and increased molecular weight, Li2PDHBQS is absolutely insoluble in the electrolyte to achieve excellent cyclability.
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