公开(公告)号：US10367191B2

公开(公告)日：2019-07-30

申请号：US15480904

申请日：2017-04-06

Applicant: STOREDOT LTD.

Inventor： Doron Burshtain ,  Sergey Remizov ,  David Jacob ,  Nitzan Shadmi ,  Hani Farran ,  Leora Shapiro ,  Ohad Goldbart ,  Boris Brudnik ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/134 ,  H01M4/62 ,  H01M4/38 ,  H01M4/1395 ,  H01M10/0525 ,  H01M4/36

Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.

公开(公告)号：US20170005330A1

公开(公告)日：2017-01-05

申请号：US15264641

申请日：2016-09-14

Applicant: StoreDot Ltd.

Inventor： Doron BURSHTAIN ,  Ronny Costi ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/38 ,  H01M4/587 ,  H01M4/62 ,  H01M10/0525

CPC classification number: H01M4/38 ,  H01G11/06 ,  H01G11/08 ,  H01G11/50 ,  H01G11/52 ,  H01G11/56 ,  H01G11/58 ,  H01G11/74 ,  H01M2/1653 ,  H01M4/133 ,  H01M4/134 ,  H01M4/136 ,  H01M4/364 ,  H01M4/386 ,  H01M4/587 ,  H01M4/622 ,  H01M4/623 ,  H01M4/625 ,  H01M10/0525 ,  H01M10/0565 ,  H01M10/0569 ,  H01M2004/027 ,  H01M2220/20 ,  H01M2220/30

Abstract: Methods for making anodes for lithium ion devices are provided. The methods include milling germanium powder, carbon, and boron carbide powder to form a nano-particle mixture having a particle size of 20 to 100 nm; adding an emulsion of tungsten carbide nano-particles having a particle size of 20 to 60 nm to the mixture to form an active material; and adding a polymeric binder to the active material to form the anode, wherein the weight percentage of the germanium in the anode is between 5 to 80 weight % of the total weight of the anode, the weight percentage of boron in the anode is between 2 to 20 weight % of the total weight of the anode and the weight percentage of tungsten in the anode is between 5 to 20 weight % of the total weight of the anode.

Abstract translation: 提供了制造锂离子装置的阳极的方法。 所述方法包括研磨锗粉，碳和碳化硼粉末以形成粒径为20-100nm的纳米颗粒混合物; 向混合物中加入粒度为20〜60nm的碳化钨纳米粒子的乳液，形成活性物质; 并且向活性材料中加入聚合物粘合剂以形成阳极，其中阳极中的锗的重量百分比为阳极总重量的5至80重量％，阳极中硼的重量百分比为2 至阳极总重量的20重量％，阳极中钨的重量百分比为阳极总重量的5至20重量％。

公开(公告)号：US10593946B2

公开(公告)日：2020-03-17

申请号：US15836993

申请日：2017-12-11

Applicant: STOREDOT LTD.

Inventor： Carmit Ophir ,  Libi Brakha

IPC: H01M4/58 ,  C08G61/12 ,  H01M10/44 ,  H01M4/04 ,  H01M4/60 ,  H01M4/136 ,  H01M4/583 ,  H01M4/13 ,  H01M4/36 ,  H01M4/46 ,  H01M10/04 ,  H01M4/62 ,  H01M10/0525 ,  H01M4/02

Abstract: Cathodes for a fast charging lithium ion battery, processes for manufacturing thereof and corresponding batteries are provided. Cathode formulations comprise spinel and/or layered structure cathode material with 5-10% of cathode material having an olivine-based structure as polymerization initiator, binder material, and monomer and/or oligomer material selected to polymerize into a conductive polymer upon partial delithiation of the olivine-based structure cathode material during at least a first charging cycle of a cell having a cathode made of the cathode formulation. When the cathode is used in a battery, polymerization is induced in-situ (in-cell) during first charging cycle(s) of the battery to provide a polymer matrix which is evenly dispersed throughout the cathode.

公开(公告)号：US09472804B2

公开(公告)日：2016-10-18

申请号：US14926012

申请日：2015-10-29

Applicant: StoreDot Ltd.

Inventor： Doron Burshtain ,  Ronny Costi ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/38 ,  H01M4/36 ,  H01M10/0525 ,  H01M4/133 ,  H01M4/134 ,  H01M4/587 ,  H01M4/02

CPC classification number: H01M4/38 ,  H01G11/06 ,  H01G11/08 ,  H01G11/50 ,  H01G11/52 ,  H01G11/56 ,  H01G11/58 ,  H01G11/74 ,  H01M2/1653 ,  H01M4/133 ,  H01M4/134 ,  H01M4/136 ,  H01M4/364 ,  H01M4/386 ,  H01M4/587 ,  H01M4/622 ,  H01M4/623 ,  H01M4/625 ,  H01M10/0525 ,  H01M10/0565 ,  H01M10/0569 ,  H01M2004/027 ,  H01M2220/20 ,  H01M2220/30

Abstract: An anode material for a lithium ion device includes an active material including germanium and boron. The weight percentage of the germanium is between about 45 to 80 weight % of the total weight of the anode material and the weight percentage of the boron is between about 2 to 20 weight % of the total weight of the anode material. The active material may include carbon at a weight percentage of between 0.5 to about 5 weight % of the total weight of the anode material. Additional materials, methods of making and devices are taught.

Abstract translation: 用于锂离子装置的负极材料包括包括锗和硼的活性材料。 锗的重量百分比在阳极材料的总重量的约45至80重量％之间，硼的重量百分比为阳极材料总重量的约2至20重量％。 活性材料可以包括重量百分比为阳极材料总重量的0.5至约5重量％之间的碳。 教授其他材料，制作方法和装置。

公开(公告)号：US09871247B2

公开(公告)日：2018-01-16

申请号：US15271234

申请日：2016-09-21

Applicant: StoreDot Ltd.

Inventor： Doron Burshtain ,  Ronny Costi ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/587 ,  H01M4/38 ,  H01M4/36 ,  H01M10/0525 ,  H01M4/133 ,  H01M4/134 ,  H01G11/06 ,  H01G11/08 ,  H01G11/50 ,  H01G11/52 ,  H01G11/56 ,  H01G11/58 ,  H01M2/16 ,  H01M4/136 ,  H01M4/62 ,  H01M10/0565 ,  H01M10/0569 ,  H01G11/74 ,  H01M4/02

CPC classification number: H01M4/38 ,  H01G11/06 ,  H01G11/08 ,  H01G11/50 ,  H01G11/52 ,  H01G11/56 ,  H01G11/58 ,  H01G11/74 ,  H01M2/1653 ,  H01M4/133 ,  H01M4/134 ,  H01M4/136 ,  H01M4/364 ,  H01M4/386 ,  H01M4/587 ,  H01M4/622 ,  H01M4/623 ,  H01M4/625 ,  H01M10/0525 ,  H01M10/0565 ,  H01M10/0569 ,  H01M2004/027 ,  H01M2220/20 ,  H01M2220/30

Abstract: Active materials for anodes for lithium ion devices are disclosed. An active may comprise germanium nano-particles having a particle size of 20 to 100 nm, wherein the weight percentage of the germanium is between 72 to 96 weight % of the total weight of the active material; boron carbide nano-particles having a particle size of 20 to 100 nm, wherein the weight percentage of boron in the active material is between 3 to 6 weight % of the total weight of the active material; and tungsten carbide nano-particles having a particle size of 20 to 60 nm, wherein the weight percentage of tungsten in the active material is between 6 to 25 weight % of the total weight of the active material.

公开(公告)号：US09831488B1

公开(公告)日：2017-11-28

申请号：US15434083

申请日：2017-02-16

Applicant: Storedot Ltd.

Inventor： Carmit Ophir ,  Libi Brakha ,  Doron Burshtain ,  Daniel Aronov

IPC: H01M4/04 ,  H01M4/136 ,  H01M4/58 ,  H01M4/583 ,  H01M4/62 ,  H01M4/60 ,  H01M10/0525 ,  H01M10/44 ,  C08G61/12 ,  H01M4/02

CPC classification number: H01M4/5825 ,  C08G61/124 ,  C08G61/126 ,  C08G2261/1424 ,  C08G2261/18 ,  C08G2261/228 ,  C08G2261/3221 ,  C08G2261/3223 ,  H01M4/136 ,  H01M4/1397 ,  H01M4/622 ,  H01M4/624 ,  H01M10/049 ,  H01M10/052 ,  H01M2004/028

Abstract: Cathodes for a fast charging lithium ion battery, processes for manufacturing thereof and corresponding batteries are provided. Cathode formulations comprise cathode material having an olivine-based structure, binder material, and monomer material selected to polymerize into a conductive polymer upon partial delithiation of the cathode material during at least a first charging cycle of a cell having a cathode made of the cathode formulation. When the cathode is used in a battery, polymerization is induced in-situ (in-cell) during first charging cycle(s) of the battery to provide a polymer matrix which is evenly dispersed throughout the cathode.

公开(公告)号：US20170294643A1

公开(公告)日：2017-10-12

申请号：US15480904

申请日：2017-04-06

Applicant: STOREDOT LTD.

Inventor： Doron BURSHTAIN ,  Sergey Remizov ,  David Jacob ,  Nitzan Shadmi ,  Hani Farran ,  Leora Shapiro ,  Ohad Goldbart ,  Boris Brudnik ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/134 ,  H01M4/36 ,  H01M4/1395 ,  H01M10/0525 ,  H01M4/62 ,  H01M4/38

CPC classification number: H01M4/134 ,  H01M4/1395 ,  H01M4/366 ,  H01M4/386 ,  H01M4/387 ,  H01M4/621 ,  H01M4/624 ,  H01M4/625 ,  H01M10/0525

Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.

公开(公告)号：US10367193B2

公开(公告)日：2019-07-30

申请号：US16243224

申请日：2019-01-09

Applicant: STOREDOT LTD.

Inventor： Doron Burshtain ,  Sergey Remizov ,  David Jacob ,  Nitzan Shadmi ,  Hani Farran ,  Leora Shapiro ,  Ohad Goldbart ,  Boris Brudnik ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/134 ,  H01M4/62 ,  H01M4/36 ,  H01M10/0525 ,  H01M4/1395 ,  H01M4/38

Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.

公开(公告)号：US09728776B2

公开(公告)日：2017-08-08

申请号：US15263399

申请日：2016-09-13

Applicant: StoreDot Ltd.

Inventor： Doron Burshtain ,  Ronny Costi ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/134 ,  H01M10/0525 ,  H01M4/136 ,  H01M4/38 ,  H01G11/06 ,  H01G11/08 ,  H01G11/50 ,  H01G11/52 ,  H01G11/56 ,  H01G11/58 ,  H01G11/74 ,  H01M2/16 ,  H01M4/133 ,  H01M4/36 ,  H01M4/587 ,  H01M4/62 ,  H01M10/0565 ,  H01M10/0569 ,  H01M4/02

CPC classification number: H01M4/38 ,  H01G11/06 ,  H01G11/08 ,  H01G11/50 ,  H01G11/52 ,  H01G11/56 ,  H01G11/58 ,  H01G11/74 ,  H01M2/1653 ,  H01M4/133 ,  H01M4/134 ,  H01M4/136 ,  H01M4/364 ,  H01M4/386 ,  H01M4/587 ,  H01M4/622 ,  H01M4/623 ,  H01M4/625 ,  H01M10/0525 ,  H01M10/0565 ,  H01M10/0569 ,  H01M2004/027 ,  H01M2220/20 ,  H01M2220/30

Abstract: Lithium ion devices that include an anode, a cathode and an electrolyte are provided. The anode having an active material including germanium nano-particles, boron carbide nano-particles and tungsten carbide nano-particles, wherein the weight percentage of the germanium is between 5 to 80 weight % of the total weight of the anode material, the weight percentage of boron in the anode material is between 2 to 20 weight % of the total weight of the anode material and the weight percentage of tungsten in the anode material is between 5 to 20 weight % of the total weight of the anode materials.

公开(公告)号：US09583761B2

公开(公告)日：2017-02-28

申请号：US15264641

申请日：2016-09-14

Applicant: StoreDot Ltd.

Inventor： Doron Burshtain ,  Ronny Costi ,  Carmit Ophir ,  Daniel Aronov

IPC: H01M4/04 ,  H01M4/38 ,  H01M10/0525 ,  H01M4/587 ,  H01M4/62 ,  H01M4/02

CPC classification number: H01M4/38 ,  H01G11/06 ,  H01G11/08 ,  H01G11/50 ,  H01G11/52 ,  H01G11/56 ,  H01G11/58 ,  H01G11/74 ,  H01M2/1653 ,  H01M4/133 ,  H01M4/134 ,  H01M4/136 ,  H01M4/364 ,  H01M4/386 ,  H01M4/587 ,  H01M4/622 ,  H01M4/623 ,  H01M4/625 ,  H01M10/0525 ,  H01M10/0565 ,  H01M10/0569 ,  H01M2004/027 ,  H01M2220/20 ,  H01M2220/30

Abstract: Methods for making anodes for lithium ion devices are provided. The methods include milling germanium powder, carbon, and boron carbide powder to form a nano-particle mixture having a particle size of 20 to 100 nm; adding an emulsion of tungsten carbide nano-particles having a particle size of 20 to 60 nm to the mixture to form an active material; and adding a polymeric binder to the active material to form the anode, wherein the weight percentage of the germanium in the anode is between 5 to 80 weight % of the total weight of the anode, the weight percentage of boron in the anode is between 2 to 20 weight % of the total weight of the anode and the weight percentage of tungsten in the anode is between 5 to 20 weight % of the total weight of the anode.

Abstract translation: 提供了制造锂离子装置的阳极的方法。 所述方法包括研磨锗粉，碳和碳化硼粉末以形成粒径为20-100nm的纳米颗粒混合物; 向混合物中加入粒度为20〜60nm的碳化钨纳米粒子的乳液，形成活性物质; 并且向活性材料中加入聚合物粘合剂以形成阳极，其中阳极中的锗的重量百分比为阳极总重量的5至80重量％，阳极中硼的重量百分比为2 至阳极总重量的20重量％，阳极中钨的重量百分比为阳极总重量的5至20重量％。