公开(公告)号：US20220275476A1

公开(公告)日：2022-09-01

申请号：US17631127

申请日：2020-07-29

Applicant: Xuyang SUN

Inventor： Xuyang SUN

IPC: C22B34/14 ,  C22B23/02 ,  C22B5/10 ,  C01B35/02 ,  C01B33/025

Abstract: Disclosed is a method for preparing an elemental material by reduction using monoatomic carbon, comprising: in a melt medium at a temperature of from 300° C. to 1500° C., cracking an organic carbon source into atomic carbon and dissolving the atomic carbon in the melt medium, allowing the atomic carbon to reduce an elemental precursor compound present in the melt medium by an oxidation-reduction reaction to generate an elemental material, and obtaining the elemental material by supersaturating and crystallizing. The method of the present invention can prepare the elemental materials with high quality by self-crystallization growth at a lower temperature and at a lower cost.

公开(公告)号：US11267702B1

公开(公告)日：2022-03-08

申请号：US16000683

申请日：2018-06-05

Applicant: National Technology & Engineering Solutions of Sandia, LLC

Inventor： Vitalie Stavila ,  James Lawrence White

IPC: C01B6/21 ,  C01B35/02

Abstract: A method for obtaining solid-state metal borohydrides without toxic precursors and expensive solvents includes dry mixing of metal hydrides and metal polyhydro-closo-borate starting materials. High pressure and heating is also used in the method. These materials can be used for hydrogen storage, general reducing agents, organic synthesis, wastewater treatment, and paper pulp bleaching.

公开(公告)号：US20210275965A1

公开(公告)日：2021-09-09

申请号：US17327131

申请日：2021-05-21

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Ta-Ching HSIAO ,  Chu-Pi JENG ,  Kuo-Lun HUANG ,  Mu-Hsi SUNG ,  Keng-Yang CHEN ,  Li-Duan TSAI

IPC: B01D53/46 ,  C01B32/984 ,  C01B35/02 ,  C01B32/97 ,  C01B32/20 ,  B01J3/00 ,  B01J8/02 ,  B01J8/00

Abstract: A method for removing boron is provided, which includes (a) mixing a carbon source material and a silicon source material in a chamber to form a solid state mixture, (b) heating the solid state mixture to a temperature of 1000° C. to 1600° C., and adjusting the pressure of the chamber to 1 torr to 100 torr. The method also includes (c) conducting a gas mixture of a first carrier gas and water vapor into the chamber to remove boron from the solid state mixture, and (d) conducting a second carrier gas into the chamber.

公开(公告)号：US11052348B2

公开(公告)日：2021-07-06

申请号：US15854375

申请日：2017-12-26

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Ta-Ching Hsiao ,  Chu-Pi Jeng ,  Kuo-Lun Huang ,  Mu-Hsi Sung ,  Keng-Yang Chen ,  Li-Duan Tsai

IPC: B01D53/46 ,  C01B32/984 ,  C01B35/02 ,  C01B32/97 ,  C01B32/20 ,  B01J3/00 ,  B01J8/02 ,  B01J8/00

Abstract: A method for removing boron is provided, which includes (a) mixing a carbon source material and a silicon source material in a chamber to form a solid state mixture, (b) heating the solid state mixture to a temperature of 1000° C. to 1600° C., and adjusting the pressure of the chamber to 1 torr to 100 torr. The method also includes (c) conducting a gas mixture of a first carrier gas and water vapor into the chamber to remove boron from the solid state mixture, and (d) conducting a second carrier gas into the chamber.

公开(公告)号：US20170183236A1

公开(公告)日：2017-06-29

申请号：US15313875

申请日：2015-06-05

Applicant: Hydric Power Systems Co., Ltd.

Inventor： Atsuhiro YOSHIZAKI

IPC: C01B35/02 ,  B01J8/00 ,  B01J8/10 ,  C01B3/00 ,  B01J8/08

CPC classification number: C01B35/02 ,  B01J8/0015 ,  B01J8/085 ,  B01J8/10 ,  B01J2208/00752 ,  C01B3/00 ,  C01B3/001 ,  C01B6/21 ,  Y02E60/327

Abstract: A method and an apparatus for producing sodium borohydride that have excellent energy efficiency and production efficiency are provided. Using a production apparatus 20 comprising: a cylindrical reaction container 21; a cylindrical reaction portion 22 which is rotatably held in this reaction container 21 and in which sodium metaborate that is a raw material 1 and granular aluminum are housed together with a grinding medium 2; and a hydrogen introduction portion 23 for introducing hydrogen gas into the reaction portion 22 directly or via the reaction container 21, the sodium metaborate and the granular aluminum are reacted under a hydrogen atmosphere, while being rolled and ground with the grinding medium, to obtain sodium borohydride.

公开(公告)号：US20160372786A1

公开(公告)日：2016-12-22

申请号：US15172641

申请日：2016-06-03

Applicant: NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY

Inventor： TERRENCE J. UDOVIC, IV

IPC: H01M10/0562 ,  C07F5/02 ,  C01B35/02 ,  H01M10/054 ,  H01M10/0525

CPC classification number: H01M10/0562 ,  C01B35/026 ,  H01M10/052 ,  H01M10/054 ,  H01M2300/0068 ,  H01M2300/0091

Abstract: A process for making a superionic conducting salt includes: combining a primary salt and an impact member, the primary salt including an ordered phase and being an ionic conductor; impacting the primary salt with the impact member; and converting the primary salt to the superionic conducting salt in response to impacting the primary salt with the impact member at a conversion temperature to make the superionic conducting salt, the conversion temperature optionally being less than a thermally activated transition temperature that thermally converts the primary salt to the superionic conducting salt in an absence of the impacting the primary salt, and the superionic conducting salt including a superionic conductive phase in a solid state at less than the thermally activated transition temperature.

Abstract translation: 制备超离子导电盐的方法包括：组合初级盐和冲击构件，所述主盐包括有序相并且是离子导体; 与冲击构件撞击初级盐; 并且响应于在转化温度下与冲击构件冲击初级盐以将初级盐转化为超离子导电盐以形成超离子导电盐，转化温度任选地小于热转化初级盐 在没有影响初级盐的情况下与超离子导电盐反应，并且超离子导电盐包括在低于热活化转变温度的固态的超离子导电相。

公开(公告)号：US20160280558A1

公开(公告)日：2016-09-29

申请号：US15176303

申请日：2016-06-08

Applicant: Toyota Motor Engineering & Manufacturing North America, Inc. ,  The University of Manitoba

Inventor： Michael Paul Rowe ,  Elizabeth Marie Skoropata ,  Johan Alexander van Lierop

IPC: C01B35/02 ,  C01B31/06 ,  C01B31/04

CPC classification number: C01B35/02 ,  C01B6/21 ,  C01B32/20 ,  C01B32/25 ,  H01F1/0311 ,  H01F3/00

Abstract: An allotrope-specific reagent includes a hydride molecule in complex with a specified elemental allotrope. The elemental allotrope included in the complex substantially retains a specified allotropic structure of the bulk element. For example, the reagent can contain a specified allotrope of carbon, such as amorphous carbon, diamond, or graphite. The allotrope-specific reagent can be useful for the synthesis of allotropic nanoparticles. A method for synthesizing the allotrope-specific reagent includes a step of ball-milling a mixture that includes a bulk hydride molecule, such as lithium borohydride powder, and a powder of a specified elemental allotrope.

Abstract translation: 同素异形体特异性试剂包括与指定的元素同素异形体复合的氢化物分子。 包含在复合物中的元素同素异形体基本上保留了大量元素的指定的同素异形体结构。 例如，试剂可以含有指定的同素异形体碳，如无定形碳，金刚石或石墨。 同素异形体特异性试剂可用于合成同素异形体纳米颗粒。 用于合成异体素特异性试剂的方法包括对包含本体氢化物分子如硼氢化锂粉末和特定元素同素异形体的粉末的混合物进行球磨的步骤。

公开(公告)号：US09205392B2

公开(公告)日：2015-12-08

申请号：US13219706

申请日：2011-08-28

Applicant: Oleg Byl ,  Edward E. Jones ,  Chiranjeevi Pydi ,  Joseph D. Sweeney

Inventor： Oleg Byl ,  Edward E. Jones ,  Chiranjeevi Pydi ,  Joseph D. Sweeney

IPC: B01J19/00 ,  B01J8/02 ,  B01J8/04 ,  C01B35/06 ,  B01J8/00 ,  C01B35/00 ,  C01B35/02

CPC classification number: B01J8/0285 ,  B01J8/0465 ,  B01J2208/00017 ,  B01J2208/00389 ,  B01J2208/00433 ,  B01J2208/00539 ,  C01B35/061

Abstract: An apparatus is described, as including a reaction region for contacting a reactant gas with a reactive solid under conditions effective to form an intermediate product, and an opening for allowing an unreacted portion of the gaseous reagent and the intermediate product to exit the reaction region. The apparatus can be beneficially employed to form a final product as a reaction product of the intermediate product and the reactant gas. The reaction of the reactant gas and reactive solid can be conducted in a first reaction zone, with the reaction of the reactant gas and intermediate product conducted in a second reaction zone. In a specific implementation, the reaction of the reactant gas and intermediate product is reversible, and the reactant gas and intermediate product are flowed to the second reaction zone at a controlled rate or in a controlled manner, to suppress back reaction forming the reactive solid.

Abstract translation: 描述了一种装置，其包括用于在有效形成中间产物的条件下使反应气体与反应性固体接触的反应区域，以及允许气态试剂和中间产物的未反应部分离开反应区域的开口。 该设备可以有利地用于形成作为中间产物和反应气体的反应产物的最终产物。 反应气体和反应性固体的反应可以在第一反应区进行，反应气体和中间产物的反应在第二反应区中进行。 在具体实施方案中，反应气体和中间产物的反应是可逆的，并且反应物气体和中间产物以受控的速率或受控的方式流到第二反应区，以抑制形成反应性固体的反应。

公开(公告)号：US08728412B2

公开(公告)日：2014-05-20

申请号：US12768362

申请日：2010-04-27

Applicant: Boris Nickolaevich Eiteneer ,  Antonio Marquez ,  David Kelly Moyeda

Inventor： Boris Nickolaevich Eiteneer ,  Antonio Marquez ,  David Kelly Moyeda

IPC: C01B17/74 ,  C01B35/02 ,  C01F5/06

CPC classification number: F23J15/003 ,  B01D53/8631 ,  B01D53/90 ,  B01D2251/208 ,  F23J15/04 ,  F23J2219/10

Abstract: A method for reducing the emissions from combustion gases produced during a combustion process includes injecting a hydrocarbon-based reducing agent into the combustion gases to form a combustion gas mixture. The combustion gas mixture including oxides of nitrogen, NOx, is directed through a selective catalyst reduction (SCR) system including a catalyst bed to remove NOx from the combustion gas mixture and to produce an exhaust gas. In one embodiment, the exhaust gases are released from the SCR to the atmosphere.

Abstract translation: 一种用于减少在燃烧过程中产生的燃烧气体的排放的方法包括将烃类还原剂注入到燃烧气体中以形成燃烧气体混合物。 通过包括催化剂床的选择性催化剂还原（SCR）系统引导包括氮氧化物的燃烧气体混合物，以从燃烧气体混合物中除去NOx并产生废气。 在一个实施例中，废气从SCR释放到大气中。

公开(公告)号：US08431102B2

公开(公告)日：2013-04-30

申请号：US12423949

申请日：2009-04-15

Applicant: Richard B. Kaner ,  Sarah H. Tolbert ,  Abby Kavner ,  Jenn-Ming Yang ,  Michelle B. Weinberger ,  Robert W. Cumberland ,  John J. Gilman ,  Hsiu-Ying Chung ,  Jonathan B. Levine

Inventor： Richard B. Kaner ,  Sarah H. Tolbert ,  Abby Kavner ,  Jenn-Ming Yang ,  Michelle B. Weinberger ,  Robert W. Cumberland ,  John J. Gilman ,  Hsiu-Ying Chung ,  Jonathan B. Levine

IPC: C01B35/02 ,  B32B5/16 ,  B32B9/00 ,  C09K3/14

CPC classification number: C01B35/04 ,  B24D3/00 ,  C09K3/1409 ,  Y10T428/12576 ,  Y10T428/256 ,  Y10T428/26 ,  Y10T428/2982

Abstract: Described herein are rhenium boride compounds having desirable characteristics for a variety of applications, ranging from abrasives and cutting tools to protective coatings.

Abstract translation: 本文描述的是硼化铼化合物，其具有从研磨剂和切削工具到保护涂层的各种应用的所需特性。