Future lays somewhere beyond lithium-based chemistries-17

Next Generation Batteries 2013: April 30- May 1, 2013 - Boston, MA

Participate Virtually with World Leaders in Next Generation Battery Technology - 2nd Next Generation Batteries 2013 Conference to Be Web Livestreaming Thursday and Friday

Electrochemical Energy Storage Development at PNN
The environmental concerns and constraints of the fossil fuels, combined with energy security concerns, have spurred increasing interest in higher efficiencies systems and renewable energy technologies.
化石燃料の環境的な問題と制約的なもの、さらにエネルギー安全保障の問題が高効率システムと再生可能エネルギー技術への関心を大きくしている。
The transition from fossil based resources to renewable cannot be realized without effective energy storage technology.
化石燃料から再生可能エネルギーへの変換は効率的なエネルギー貯蔵技術なしには実現不可能である。
The DOE Office of Energy Storage Program at Pacific Northwest National Laboratory (PNNL) is focused on the development of cost effective energy storage technologies to meet future energy needs.
Among the most promising storage technologies for the stationary applications are electrochemical storage technologies including redox flow batteries and Na-metal battery, and Na-ion technologies. This presentation will be given by Wei Wang, PhD, and Vincenet Sprenkle, PhD, of Pacific Northwest National Laboratory at Next Generation Batteries 2013 .
If interesting, please go to Event

Future lays somewhere beyond lithium-based chemistries-16

Next Generation Batteries 2013: April 30- May 1, 2013 - Boston, MA

*A very limited number of discounted hotel rooms remain available：
Call:  (617)-232-7400
Email: mdicecca@knowledgefoundation.com

Novel 3D-Microbatteries: Modeling and Design
All-solid-state micro-batteries (MB) are in the focus of modern battery research.
The new concept of 3D integrated MB is based on the etching of deep 3D-structures into a Si substrate, increasing the effective surface area.
New possibilities exist to increase the energy density by applying novel Li-storage materials.
Mathematical modeling provides insight into the functioning of all-solid state Li-ion batteries.
In particular charge/discharge profiles of 3D-MB with prospective Si anode are calculated, energy and power limitations of complete device as function of design parameters are studied.
3D integration reduces the current density and improves electrode and electrolyte kinetics. It leads to considerable gain in battery performance.
This presentation will be given by Dmitri L. Danilov, of Eindoven University of Technology, The Netherlands at Next Generation Batteries 2013.
If interesting, please go to Event

Future lays somewhere beyond lithium-based chemistries-15

Next Generation Batteries 2013: April 30- May 1, 2013 - Boston, MA

新しい世界へ、電池chemistryの

電池chemistry におけるブレークスルー
そして新しい電極と電解質材料
モバイル、ポータブル、設置型装置分野向けのシステム集積化技術
マイクロ医療機器から高エネルギー/高パワー自動車まで
無限の可能性を秘め、立ち上がるマーケット
それへのロードマップを描いてきた、これらは

商業利用可能なエネルギー貯蔵システム
そのパワー、エネルギー、コスト、安全性
これらの要求
要求への満足
できるのかLi-Ion batteryは

未来は、リチウムchemistryの、その先にあるのか？
そのどこかに

電池材料、システム設計、集積化、製造と商業分野
湧き上がる問題は電池産業で旋回変位する時間を強調する
これら分野を先導する専門家がこの問題に切り込む
パネルでは

If interesting, please go to Event