公开(公告)号：US07875351B2

公开(公告)日：2011-01-25

申请号：US10599250

申请日：2005-03-22

Applicant: A. Paul Alivisatos ,  Yadong Yin ,  Robert M. Rioux ,  Gabor A. Somorjai

Inventor： A. Paul Alivisatos ,  Yadong Yin ,  Robert M. Rioux ,  Gabor A. Somorjai

IPC: B32B5/16

CPC classification number: C30B29/60 ,  B22F1/0025 ,  B22F2001/0029 ,  B82Y30/00 ,  C01B13/32 ,  C01B13/322 ,  C01B17/20 ,  C01B19/007 ,  C01B21/06 ,  C01B21/0602 ,  C01B21/0632 ,  C01B21/0637 ,  C01G11/02 ,  C01G49/06 ,  C01G51/00 ,  C01G51/04 ,  C01G51/30 ,  C01G53/00 ,  C01G53/09 ,  C01G55/00 ,  C01P2002/72 ,  C01P2004/04 ,  C01P2004/13 ,  C01P2004/16 ,  C01P2004/34 ,  C01P2004/61 ,  C01P2004/62 ,  C01P2004/64 ,  C30B7/00 ,  C30B29/16 ,  C30B29/48 ,  Y10S977/70 ,  Y10S977/773 ,  Y10T428/12181 ,  Y10T428/13 ,  Y10T428/2991

Abstract: Described herein are nanoreactors having various shapes that can be produced by a simple chemical process. The nanoreactors described herein may have a shell as thin as 0.5 nm and outside diameters that can be controlled by the process of making and have a nanoparticle enclosed therein. The nanoreactors have catalytic activity and may be used to catalyze a variety of chemical reactions.

Abstract translation: 本文描述了具有可以通过简单化学方法生产的各种形状的纳米反应器。 本文所述的纳米反应器可以具有薄至0.5nm的外壳，并且可以通过制备方法控制外部直径并且将纳米颗粒封闭在其中。 纳米反应器具有催化活性，可用于催化各种化学反应。

公开(公告)号：US4460443A

公开(公告)日：1984-07-17

申请号：US416351

申请日：1982-09-09

Applicant: Gabor A. Somorjai ,  Christofer H. Leygraf

Inventor： Gabor A. Somorjai ,  Christofer H. Leygraf

IPC: H01M14/00 ,  C25B1/00 ,  C25B5/00 ,  C25B1/04

CPC classification number: C25B1/003 ,  Y02E60/368

Abstract: Chemical compounds can be dissociated by contacting the same with a p/n type semi-conductor diode having visible light as its sole source of energy. The diode consists of low cost, readily available materials, specifically polycrystalline iron oxide doped with silicon in the case of the n-type semi-conductor electrode, and polycrystalline iron oxide doped with magnesium in the case of the p-type electrode. So long as the light source has an energy greater than 2.2 electron volts, no added energy source is needed to achieve dissociation.

Abstract translation: 通过使化合物与具有可见光的p / n型半导体二极管作为其唯一能量源接触来解离化合物。 在p型电极的情况下，二极管由低成本，易于获得的材料，特别是在n型半导体电极的情况下掺杂有硅的多晶铁氧化物和掺杂有镁的多晶铁氧体组成。 只要光源具有大于2.2电子伏特的能量，就不需要添加能量来实现解离。

公开(公告)号：US09312342B2

公开(公告)日：2016-04-12

申请号：US13994663

申请日：2011-12-16

Applicant: L. Robert Baker ,  Hyungtak Seo ,  Antoine Hervier ,  Gabor A. Somorjai

Inventor： L. Robert Baker ,  Hyungtak Seo ,  Antoine Hervier ,  Gabor A. Somorjai

IPC: H01L31/06 ,  H01L21/31 ,  H01L29/24 ,  H01L21/02 ,  H01L21/324 ,  H01L45/00 ,  H01L27/24

CPC classification number: H01L29/24 ,  H01L21/02565 ,  H01L21/02576 ,  H01L21/02631 ,  H01L21/324 ,  H01L27/2436 ,  H01L45/08 ,  H01L45/1233 ,  H01L45/146 ,  H01L45/1625 ,  H01L45/1641

Abstract: A new composition of matter is disclosed wherein oxygen vacancies in a semiconducting transition metal oxide such as titanium dioxide are filled with a halogen such as Fluorine, whereby the conductivity of the composition is greatly enhanced, while at the same time the chemical stability of the composition is greatly improved. Stoichiometric titanium dioxide having less than 3 % oxygen vacancies is subject to fluorine insertion such that oxygen vacancies are filled, limited amounts of fluorine replace additional oxygen atoms and fluorine interstitially inserts into the body of the TiO2 composition.

Abstract translation: 公开了一种新的物质组合物，其中半导体过渡金属氧化物如二氧化钛中的氧空位填充有诸如氟的卤素，由此组合物的导电性大大增强，同时组合物的化学稳定性 大大提高。 具有小于3％氧空位的化学计量二氧化钛经受氟插入，使得氧空位被填充，有限量的氟替代另外的氧原子和氟间隙插入到TiO 2组合物的体内。

公开(公告)号：US20080226934A1

公开(公告)日：2008-09-18

申请号：US10599250

申请日：2005-03-22

Applicant: A. Paul Alivisatos ,  Yadong Yin ,  Robert M. Rioux ,  Gabor A. Somorjai

Inventor： A. Paul Alivisatos ,  Yadong Yin ,  Robert M. Rioux ,  Gabor A. Somorjai

IPC: B32B5/16 ,  B05D7/14

CPC classification number: C30B29/60 ,  B22F1/0025 ,  B22F2001/0029 ,  B82Y30/00 ,  C01B13/32 ,  C01B13/322 ,  C01B17/20 ,  C01B19/007 ,  C01B21/06 ,  C01B21/0602 ,  C01B21/0632 ,  C01B21/0637 ,  C01G11/02 ,  C01G49/06 ,  C01G51/00 ,  C01G51/04 ,  C01G51/30 ,  C01G53/00 ,  C01G53/09 ,  C01G55/00 ,  C01P2002/72 ,  C01P2004/04 ,  C01P2004/13 ,  C01P2004/16 ,  C01P2004/34 ,  C01P2004/61 ,  C01P2004/62 ,  C01P2004/64 ,  C30B7/00 ,  C30B29/16 ,  C30B29/48 ,  Y10S977/70 ,  Y10S977/773 ,  Y10T428/12181 ,  Y10T428/13 ,  Y10T428/2991

Abstract: Described herein are nanoreactors having various shapes that can be produced by a simple chemical process. The nanoreactors described herein may have a shell as thin as 0.5 nm and outside diameters that can be controlled by the process of making and have a nanoparticle enclosed therein. The nanoreactors have catalytic activity and may be used to catalyze a variety of chemical reactions.

Abstract translation: 本文描述了具有可以通过简单化学方法生产的各种形状的纳米反应器。 本文所述的纳米反应器可以具有薄至0.5nm的外壳，并且可以通过制备方法控制外部直径并且将纳米颗粒封闭在其中。 纳米反应器具有催化活性，可用于催化各种化学反应。

公开(公告)号：US4533608A

公开(公告)日：1985-08-06

申请号：US614282

申请日：1984-05-24

Applicant: Gabor A. Somorjai ,  Christofer H. Leygraf

Inventor： Gabor A. Somorjai ,  Christofer H. Leygraf

IPC: C25B1/00 ,  H01M6/36

CPC classification number: C25B1/003 ,  Y10S204/03

Abstract: Chemical compounds can be dissociated by contacting the same with a p/n type semi-conductor photochemical diode having visible light as its sole source of energy. The photochemical diode consists of low cost, readily available materials, specifically polycrystalline iron oxide doped with silicon in the case of the n-type semi-conductor electrode, and polycrystalline iron oxide doped with magnesium in the case of the p-type electrode. So long as the light source has an energy greater than 2.2 electron volts, no added energy source is needed to achieve dissociation.

Abstract translation: 可以通过将其与具有可见光的p / n型半导体光化学二极管作为其唯一能量源接触来解离化学化合物。 在p型电极的情况下，光化学二极管由低成本，易于获得的材料，特别是在n型半导体电极的情况下掺杂有硅的多晶铁氧化物和掺杂有镁的多晶铁氧体组成。 只要光源具有大于2.2电子伏特的能量，就不需要添加能量来实现解离。

公开(公告)号：US4532230A

公开(公告)日：1985-07-30

申请号：US506559

申请日：1983-06-21

Applicant: Carlos A. Colmenares ,  Gabor A. Somorjai ,  Joseph J. Maj

Inventor： Carlos A. Colmenares ,  Gabor A. Somorjai ,  Joseph J. Maj

IPC: B01J23/12 ,  B01J23/04

CPC classification number: B01J23/12

Abstract: A ThO.sub.2 catalyst having a high surface area of about 80-125 m.sup.2 /g is synthesized. The compound is synthesized by simultaneously mixing an aqueous solution of ThNO.sub.3 (NO.sub.3).sub.4.4H.sub.2 O with an aqueous solution of Na.sub.2 CO.sub.3.H.sub.2 O, to produce a solution and solid ThOCO.sub.3. The solid ThOCO.sub.3 is separated from the solution, and then calcined at a temperature of about 225.degree.-300.degree. C. for about 40-55 hours to produce ThO.sub.2. The ThO.sub.2 catalyst produced includes Na present as a substitutional cation in an amount equal to about 5-10 atom percent.

Abstract translation: 合成具有约80-125m 2 / g的高表面积的ThO 2催化剂。 通过同时将ThNO 3（NO 3）4·4H 2 O的水溶液与Na 2 CO 3·H 2 O的水溶液同时混合来合成化合物，得到溶液和固体的ThOOC 3。 将固体ThOCO 3与溶液分离，然后在约225-300℃的温度下煅烧约40-55小时以产生ThO 2。 产生的ThO 2催化剂包括以等于约5-10原子％的量作为取代阳离子存在的Na。

公开(公告)号：US4390345A

公开(公告)日：1983-06-28

申请号：US207371

申请日：1980-11-17

Applicant: Gabor A. Somorjai

Inventor： Gabor A. Somorjai

IPC: C10L1/14 ,  C10L1/18 ,  C10L1/30

CPC classification number: C10L10/02 ,  C10L1/14 ,  C10L10/10 ,  C10L1/1855 ,  C10L1/305

Abstract: Gasoline compositions and additive mixtures containing compounds having the formula: ##STR1## wherein R.sub.1 -R.sub.6 are each independently selected from hydrogen or hydrocarbyl radicals in an amount sufficient to reduce exhaust hydrocarbon emissions from an internal combustion engine being operated on gasoline containing a cyclopentadienyl manganese antiknock. Preferred hydrocarbon exhaust emission reducing compounds are 1,3-dioxolane and the lower alkyl and alkenyl substituted derivatives thereof.

Abstract translation: 含有下式化合物的汽油组合物和添加剂混合物，其中R1-R6各自独立地选自氢或烃基，其量足以减少在含有环戊二烯基锰抗爆炸剂的汽油上操作的内燃机的排放烃排放 。 优选的烃废气排放减少化合物是1,3-二氧戊环及其低级烷基和烯基取代的衍生物。

公开(公告)号：US08893309B2

公开(公告)日：2014-11-18

申请号：US13388223

申请日：2010-06-22

Applicant: Feng Tao ,  Miquel Salmeron ,  Gabor A. Somorjai

Inventor： Feng Tao ,  Miquel Salmeron ,  Gabor A. Somorjai

IPC: G01Q60/10 ,  G01Q30/18 ,  G01Q30/16 ,  G01Q60/16 ,  G01Q30/12 ,  G01Q60/00 ,  G21K5/10 ,  B82Y35/00

CPC classification number: G01Q60/16 ,  B82Y35/00 ,  G01Q30/12 ,  G01Q30/16 ,  Y10S977/86 ,  Y10S977/861 ,  Y10S977/869 ,  Y10S977/871

Abstract: An embodiment of a scanning tunneling microscope (STM) reactor includes a pressure vessel, an STM assembly, and three spring coupling objects. The pressure vessel includes a sealable port, an interior, and an exterior. An embodiment of an STM system includes a vacuum chamber, an STM reactor, and three springs. The three springs couple the STM reactor to the vacuum chamber and are operable to suspend the scanning tunneling microscope reactor within the interior of the vacuum chamber during operation of the STM reactor. An embodiment of an STM assembly includes a coarse displacement arrangement, a piezoelectric fine displacement scanning tube coupled to the coarse displacement arrangement, and a receiver. The piezoelectric fine displacement scanning tube is coupled to the coarse displacement arrangement. The receiver is coupled to the piezoelectric scanning tube and is operable to receive a tip holder, and the tip holder is operable to receive a tip.

Abstract translation: 扫描隧道显微镜（STM）反应器的一个实施例包括压力容器，STM组件和三个弹簧耦合物体。 压力容器包括可密封的端口，内部和外部。 STM系统的实施例包括真空室，STM反应器和三个弹簧。 三个弹簧将STM反应器耦合到真空室，并且可操作以在STM反应器的操作期间将扫描隧道显微镜反应器悬挂在真空室内部。 STM组件的实施例包括粗排列布置，耦合到粗位移布置的压电精细位移扫描管和接收器。 压电精细位移扫描管耦合到粗排位置。 接收器耦合到压电扫描管并且可操作以接收尖端保持器，并且尖端保持器可操作以接收尖端。

公开(公告)号：US20110250122A1

公开(公告)日：2011-10-13

申请号：US13128226

申请日：2009-11-03

Applicant: Sang Hoon Joo ,  Jeong Young Park ,  Chia-Kuang Tsung ,  Peidong Yang ,  Gabor A. Somorjai

Inventor： Sang Hoon Joo ,  Jeong Young Park ,  Chia-Kuang Tsung ,  Peidong Yang ,  Gabor A. Somorjai

IPC: C01B31/20 ,  B01J23/42 ,  B01J23/44 ,  B01J23/46 ,  B01J23/52 ,  B01J23/50 ,  B01J23/72 ,  B01J23/755 ,  B01J23/75 ,  B01J23/745 ,  B01J21/08 ,  B01J21/04 ,  B01J21/06 ,  B01J23/20 ,  B01J35/08 ,  B01J35/06 ,  B01J37/025 ,  B01J37/08 ,  B01J37/14 ,  C07C5/03 ,  B01J35/10 ,  B82Y30/00

CPC classification number: B01J35/0013 ,  B01J21/08 ,  B01J23/38 ,  B01J23/40 ,  B01J23/42 ,  B01J23/74 ,  B01J23/75 ,  B01J29/0308 ,  B01J29/0325 ,  B01J35/002 ,  B01J2229/66 ,  C01B3/26 ,  C01B3/40 ,  C01B3/583 ,  C01B2203/0261 ,  C01B2203/0277 ,  C01B2203/044 ,  C01B2203/047 ,  C01B2203/1017 ,  C01B2203/107 ,  C07C5/03 ,  C07C2521/08 ,  C07C2523/42 ,  Y02P20/52 ,  C07C9/06

Abstract: The present invention provides a core-shell nanoparticle that includes a metal-oxide shell and a nanoparticle. Pores extend from an outer surface to an inner surface of the shell. The inner surface of the shell forms a void, which is filled by the nanoparticle. The pores allow gas to transfer from outside the shell to a surface of the nanoparticle. The present invention also provides a method of making a core-shell nanoparticle includes forming a metal-oxide shell on a colloidal nanoparticle, which forms a precursor core-shell nanoparticle. A capping agent is removed from the precursor core-shell nanoparticle, which produces the core-shell nanoparticle. The present invention also provides a method of using a nanocatalyst of the present invention includes providing the nanocatalyst, which is the core-shell nanoparticle. Reactants are introduced in a vicinity of the nanocatalyst, which produces a reaction that is facilitated or enhanced by the nanocatalyst.

Abstract translation: 本发明提供了包含金属氧化物壳和纳米颗粒的核 - 壳纳米颗粒。 孔从壳体的外表面延伸到内表面。 壳的内表面形成空隙，其由纳米颗粒填充。 孔允许气体从外壳转移到纳米颗粒的表面。 本发明还提供了制备核 - 壳纳米颗粒的方法，包括在形成前体核 - 壳纳米颗粒的胶体纳米颗粒上形成金属氧化物壳。 从前体核 - 壳纳米颗粒中除去封端剂，其产生核 - 壳纳米颗粒。 本发明还提供了使用本发明的纳米催化剂的方法，包括提供作为核 - 壳纳米颗粒的纳米催化剂。 将反应物引入纳米催化剂附近，产生由纳米催化剂促进或增强的反应。

公开(公告)号：US20140306215A1

公开(公告)日：2014-10-16

申请号：US13994663

申请日：2011-12-16

Applicant: L. Robert Baker ,  Hyungtak Seo ,  Antoine Hervier ,  Gabor A. Somorjai

Inventor： L. Robert Baker ,  Hyungtak Seo ,  Antoine Hervier ,  Gabor A. Somorjai

IPC: H01L21/02 ,  H01L29/24

CPC classification number: H01L29/24 ,  H01L21/02565 ,  H01L21/02576 ,  H01L21/02631 ,  H01L21/324 ,  H01L27/2436 ,  H01L45/08 ,  H01L45/1233 ,  H01L45/146 ,  H01L45/1625 ,  H01L45/1641

Abstract: A new composition of matter is disclosed wherein oxygen vacancies in a semiconducting transition metal oxide such as titanium dioxide are filled with a halogen such as Fluorine, whereby the conductivity of the composition is greatly enhanced, while at the same time the chemical stability of the composition is greatly improved. Stoichiometric titanium dioxide having less than 3% oxygen vacancies is subject to fluorine insertion such that oxygen vacancies are filled, limited amounts of fluorine replace additional oxygen atoms and fluorine interstitially inserts into the body of the TiO2 composition.

Abstract translation: 公开了一种新的物质组合物，其中半导体过渡金属氧化物如二氧化钛中的氧空位填充有诸如氟的卤素，由此组合物的导电性大大增强，同时组合物的化学稳定性 大大提高。 具有小于3％氧空位的化学计量二氧化钛经受氟插入，使得氧空位被填充，有限量的氟替代另外的氧原子和氟间隙插入到TiO 2组合物的体内。