On November 1st, a new study has already answered why the use of lithium iron phosphate as a battery anode usually results in battery performance exceeding expectations: the secret is derived from its internal defects. Material scientist Ming Tang said in a press release: “We all know that this material is very effective, but scientists have been arguing about the real cause of it. This material is not so good in many aspects, but sometimes it will Beyond people's expectations." The researchers found that during the manufacture of lithium iron phosphate, some of its atoms in the crystal lattice had a misalignment called a reversed position defect. Scientists discovered through research that this kind of antipodal defect may be able to answer the admirable performance of this material. This defect allows the cathode material to release and collect lithium ions from a larger surface area. Until then, scientists assumed that lithium ions can only move in a single direction, which limits the surface size of materials that can release and absorb lithium ions. Microscopic imaging technology and computer models allow scientists to observe the movement of ions during battery charging. Scientists' analysis shows that the presence of anti-location defects has caused ions to move in a new direction. This defect effectively increases the surface active area of ​​the lithium iron phosphate nanorods, allowing the lithium ions between the positive electrode and the electrolyte to propagate more efficiently. Tang stated: “The majority of battery cathodes have been made into the shape of thin disks to increase the unidirectional movement of lithium ions. Our findings have changed our view on the optimal shape design of lithium iron phosphate. The existence of such defects makes lithium ions Being able to move in multiple directions means that we are completely inaccurate in design criteria that maximize performance." Even experts in battery research do not fully understand the electrochemical performance and processes of lithium ion batteries and their components. But as more scientists come to conceive and analyze these electrochemical processes and performances, we will be able to improve them more and make the performance of lithium batteries as efficient as possible.
Many different species of wood are fabricated into Wood Flooring in two primary forms: plank and parquet. Hardwoods are typically much more durable than softwoods. Reclaimed lumber has a unique appearance and is used in green building. Engineered hardwood has a thin solid wood layer on top with a composite core. It can be a less expensive option than buying hardwood.
Luli Group Co., Ltd, the company goal is to provide high-quality Flooring and environmentally-friendly products. We also use OSB because of its limited consumption of forest greenery.
Wood flooring we have:
1. Solid wood flooring:
Material: Poplar, eucalyptus, red oak, sapele, bintangor, rosewood, Bramante, teak, ribbed birch, black walnut, oak
Size: 910x122x18mm, 910x123x18mm, 910x127x18mm
Face: Uv lacquer
2. Laminate OSB flooring:
Material: OSB
Size: 910x122x18mm, 910x123x18mm, 910x127x18mm
Face/Back: Melamine paper with wear-resisting layer
Surface type: Soft finish, glossy finish, matte finish and so on
Glue: MDI( Zero Formaldehyde)
Flooring Wood Flooring,Waterproof Flooring,Plank Flooring,Vinyl Flooring Luli Group Co.,Ltd. , https://www.cnluli.com
