Lu Yang

20120288617, Nov 15, 2012

May 11, 2012

13/470041

Lu Yang - Fremont CA, US
Miaojun Wang - San Jose CA, US
Dongli Zeng - Sunnyvale CA, US

Applied Materials, Inc. - Santa Clara CA

H01M 4/60
H01M 4/04
H01M 4/48

427 58, 2521821

Compositions and methods of forming battery active materials are provided. A solution of battery active metal cations and reactive anions may be blended with a fuel to yield a precursor mixture usable for synthesizing a battery active material for deposition onto a substrate. The battery active metal cations include lithium, manganese, cobalt, nickel, iron, vanadium, and the like. Reactive anions include nitrate, acetate, citrate, tartrate, maleate, azide, amide, and other lower carboxylates. Suitable fuels, which may be water miscible, may include amino compounds. Alcohols and sugars may be added to adjust carbon content and fuel combustion characteristics. An exothermic reaction is performed to convert the metals into battery active oxides.

20130214200, Aug 22, 2013

Aug 10, 2012

13/572047

Lu Yang - Fremont CA, US
Josef T. Hoog - El Granada CA, US
Miaojun Wang - San Jose CA, US
Dongli Zeng - Sunnyvale CA, US
Robert Z. Bachrach - Burlingame CA, US
Hooman Bolandi - San Jose CA, US
Sergey D. Lopatin - Morgan Hill CA, US

Applied Materials, Inc. - Santa Clara CA

H01M 4/525

2521821, 422198, 422202, 422119

Apparatus and methods of forming a battery-active material are described. An apparatus includes a first processing section that raises the temperature of a precursor material to a reaction threshold temperature, a second processing section that converts the precursor material to a battery-active material, and a third processing section that cools the resulting battery-active material. Each of the processing sections may be a continuous flow tubular component. The first and third processing sections may be metal, and the second processing section may be a refractory material for high temperature service. The battery-active material is collected using a solids collector.

20220297076, Sep 22, 2022

Jun 9, 2022

17/836395

- Fremont CA, US
Lu Yang - Fremont CA, US
Liang-Yuh Chen - Saratoga CA, US

B01J 10/00
B01J 19/06
H01M 4/48
C01B 13/34
B01J 19/26

A processing system and method of producing a particulate material from a liquid mixture are provided. The processing system generally includes a system inlet connected to one or more gas lines to deliver one or more gases into the processing system, one or more power jet modules adapted to jet a liquid mixture into one or more streams of droplets and to force the one or more streams of droplets into the processing system, and a reaction chamber adapted to deliver the one or more streams of droplets in the presence of the one or more gases and process the one or more streams of droplets into the particulate material. The method includes delivering one or more gases into a processing system, jetting the liquid mixture into one or more first droplets streams using one or more power jet modules of the processing system and into the processing system, and reacting the one or more first droplets streams delivered from the processing chamber inside a reaction chamber of the processing system in the presence of the one or more gases into the particulate material at a first temperature.

20210402365, Dec 30, 2021

Jun 28, 2020

16/914458

- Fremont CA, US
Lu YANG - Fremont CA, US
Liang-Yuh CHEN - Saratoga CA, US

B01J 19/26
B01J 10/00
B01J 19/00
C01B 13/34

A processing system and method of producing a particulate material are provided. The processing system includes a system inlet connected to one or more gas lines to deliver one or more gases into the processing system, a buffer chamber, a dispersion chamber, a heating assembly, a reaction chamber and a system outlet for delivering particulate material out of the processing system. The method includes delivering one or more gases via a system inlet into a buffer chamber of a processing system, jetting a liquid mixture into one or more streams of droplets using one or more power jet modules into the processing system, delivering flows of one or more heated gases via a heating assembly, forming a reaction mixture and processing the reaction mixture at a reaction temperature into a product material inside the reaction chamber.

20200406215, Dec 31, 2020

Jun 28, 2019

16/457885

- Fremont CA, US
Lu Yang - Fremont CA, US
Liang-Yuh Chen - Saratoga CA, US

B01J 10/00
B01J 19/06
B01J 19/26
C01B 13/34
H01M 4/48

A processing system and method of producing a particulate material from a liquid mixture are provided. The processing system generally includes a system inlet connected to one or more gas lines to deliver one or more gases into the processing system, one or more power jet modules adapted to jet a liquid mixture into one or more streams of droplets and to force the one or more streams of droplets into the processing system, and a reaction chamber adapted to deliver the one or more streams of droplets in the presence of the one or more gases and process the one or more streams of droplets into the particulate material. The method includes delivering one or more gases into a processing system, jetting the liquid mixture into one or more first droplets streams using one or more power jet modules of the processing system and into the processing system, and reacting the one or more first droplets streams delivered from the processing chamber inside a reaction chamber of the processing system in the presence of the one or more gases into the particulate material at a first temperature.

20200411839, Dec 31, 2020

Jun 28, 2019

16/457889

- Fremont CA, US
Lu Yang - Fremont CA, US
Liang-Yuh Chen - Saratoga CA, US

H01M 4/04
B05B 1/02

A processing system for producing a product material from a liquid mixture includes an array of one or more power jet modules adapted to jet the liquid mixture into one or more streams of droplets and force the one or more streams of droplets into the processing system, a dispersion chamber and a reaction chamber adapted to process the one or more streams of droplets into the product material. A method for producing a product material from a liquid mixture on a processing system includes moving each of the one or more power jet modules and be connected to an opening of a dispersion chamber opening one or more doors of the one or more power jet modules, processing the one or more streams of droplets inside a reaction chamber, closing the one or more doors of the power jets modules and moving each of the one or more power jet modules in a second direction.

20150372271, Dec 24, 2015

Jun 22, 2015

14/746771

- Santa Clara CA, US
Raman TALWAR - Palo Alto CA, US
Karl M. BROWN - Santa Clara CA, US
Lu YANG - Fremont CA, US
Hooman BOLANDI - San Jose CA, US
Victor PEBENITO - San Jose CA, US
Connie P. WANG - Mountain View CA, US
Robert Z. BACHRACH - Burlingame CA, US

H01M 2/16
H01M 4/525
H01M 4/505
H01M 4/58
H01M 10/0525
H01M 4/485

Embodiments of the present invention relate generally to lithium-ion batteries, and more specifically, to batteries having integrated separators and methods of fabricating such batteries. In one embodiment, a lithium-ion battery having an electrode structure is provided. The lithium-ion battery comprises an anode stack, a cathode stack, and a porous electrospun polymer separator comprising a nano-fiber backbone structure. The anode stack comprises an anodic current collector and an anode structure formed over a first surface of the anodic current collector. The cathode stack comprises a cathodic current collector and a cathode structure formed over a first surface of the cathodic current collector. The porous electrospun polymer separator is positioned between the anode structure and the cathode structure.