公开(公告)号：US20090170961A1

公开(公告)日：2009-07-02

申请号：US12248063

申请日：2008-10-09

Applicant: Jin Hyuck YANG ,  Chang Hwan Choi ,  Byoung Jin Chun ,  Chul Tack Lim

Inventor： Jin Hyuck YANG ,  Chang Hwan Choi ,  Byoung Jin Chun ,  Chul Tack Lim

IPC: C01F17/00 ,  B01F3/12

CPC classification number: C01F17/0043 ,  B82Y30/00 ,  C01B13/18 ,  C01P2002/72 ,  C01P2004/03 ,  C01P2004/32 ,  C01P2004/52 ,  C01P2004/64

Abstract: Disclosed are a method of manufacturing dysprosium oxide nanoparticles and a method of manufacturing a dysprosium oxide nanosol, which can prepare dysprosium oxide particles having a size of tens of nanometers with high yield by using a simple, low-cost process. The method of manufacturing dysprosium oxide nanoparticles includes preparing a dysprosium salt solution by dissolving a dysprosium salt in a solvent; impregnating an organic polymer comprising a nanosized pore with the dysprosium salt solution; and heating the organic polymer impregnated with the dysprosium salt solution until the organic polymer is fired.

Abstract translation: 公开了一种制造氧化镝纳米颗粒的方法和一种制造氧化镝纳米溶胶的方法，其可以通过使用简单的低成本方法以高产率制备具有数十纳米尺寸的氧化镝颗粒。 制造氧化镝纳米颗粒的方法包括通过将镝盐溶解在溶剂中来制备镝盐溶液; 用镝盐溶液浸渍包含纳米孔的有机聚合物; 并加热浸渍有镝盐溶液的有机聚合物直到有机聚合物烧制。

公开(公告)号：US20090148609A1

公开(公告)日：2009-06-11

申请号：US12244883

申请日：2008-10-03

Applicant: Chul Tack LIM ,  Byoung Jin Chun ,  Chang Hwan Choi ,  Jin Hyuck Yang ,  Seung Ho Lee ,  Dae Sung Kim ,  Hyung Mi Lim

Inventor： Chul Tack LIM ,  Byoung Jin Chun ,  Chang Hwan Choi ,  Jin Hyuck Yang ,  Seung Ho Lee ,  Dae Sung Kim ,  Hyung Mi Lim

IPC: B05D3/02 ,  B02C19/00

CPC classification number: C01F5/06 ,  B82Y30/00 ,  C01B13/18 ,  C01F17/0043 ,  C01G31/02 ,  C01P2002/72 ,  C01P2004/03 ,  C01P2004/04 ,  C01P2004/51 ,  C01P2004/64

Abstract: Disclosed are a method of manufacturing magnesium oxide nanoparticles and a method of manufacturing a magnesium oxide nanosol, which can prepare magnesium oxide particles having a size of tens of nanometers with high yield by using a simple, low-cost process. The methods of manufacturing magnesium oxide nanoparticles and manufacturing magnesium oxide nanosol include preparing a magnesium salt solution by dissolving a magnesium salt in a solvent; impregnating an organic polymer comprising a nanosized pore with the magnesium salt solution; and heating the organic polymer impregnated with the magnesium salt solution until the organic polymer is fired.

Abstract translation: 公开了一种制造氧化镁纳米颗粒的方法和一种制造氧化镁纳米溶胶的方法，其可以通过使用简单的低成本方法以高产率制备具有数十纳米尺寸的氧化镁颗粒。 制造氧化镁纳米粒子和制造氧化镁纳米溶胶的方法包括通过将镁盐溶解在溶剂中来制备镁盐溶液; 用镁盐溶液浸渍包含纳米孔的有机聚合物; 并加热浸渍有镁盐溶液的有机聚合物直到有机聚合物烧制。

公开(公告)号：US20100157508A1

公开(公告)日：2010-06-24

申请号：US12493816

申请日：2009-06-29

Applicant: Chul Tack Lim ,  Chang Hwan Choi ,  Byoung Jin Chun ,  Jin Hyuck Yang

Inventor： Chul Tack Lim ,  Chang Hwan Choi ,  Byoung Jin Chun ,  Jin Hyuck Yang

IPC: H01G4/20 ,  C08K3/10 ,  B05D3/02

CPC classification number: H01G4/1227 ,  B82Y30/00 ,  C01B13/18 ,  C01G45/125 ,  C01P2002/77 ,  C01P2004/64 ,  H01G4/10 ,  H01G4/30

Abstract: A method of manufacturing complex oxide nano particles includes preparing a mixed solution including at least one metal salt selected from the group consisting of aluminum salt, manganese salt and barium salt, impregnating an organic polymer having nano-sized pores with the mixed solution, and calcining the organic polymer impregnated with the mixed solution. Accordingly, complex oxides with particle sizes on the nanoscale can be prepared, and the kind and composition ratio of metal elements contained in the complex oxides can be facilitated. Also, a multilayer ceramic capacitor including the complex metal oxides manufactured by this method can ensure a super slim profile and high capacity.

Abstract translation: 制备复合氧化物纳米颗粒的方法包括制备包含至少一种选自铝盐，锰盐和钡盐的金属盐的混合溶液，用混合溶液浸渍具有纳米尺寸孔的有机聚合物，并煅烧 用混合溶液浸渍的有机聚合物。 因此，可以制备具有纳米尺寸的复合氧化物，并且可以促进复合氧化物中所含的金属元素的种类和组成比。 此外，包括通过该方法制造的复合金属氧化物的多层陶瓷电容器可以确保超薄型材和高容量。

公开(公告)号：US20090110630A1

公开(公告)日：2009-04-30

申请号：US12247550

申请日：2008-10-08

Applicant: Chul Tack LIM ,  Chang Hwan CHOI ,  Byoung Jin CHUN ,  Jin Hyuck YANG ,  Takaki MASAKI

Inventor： Chul Tack LIM ,  Chang Hwan CHOI ,  Byoung Jin CHUN ,  Jin Hyuck YANG ,  Takaki MASAKI

IPC: C01G31/02

CPC classification number: C01G31/02 ,  B82Y30/00 ,  C01P2002/72 ,  C01P2004/03 ,  C01P2004/51 ,  C01P2004/64

Abstract: Disclosed is a method of manufacturing vanadium oxide nanoparticles, which can prepare vanadium oxide particles having a size of tens of nanometers with high yield by using a simple, low-cost process. The method of manufacturing vanadium oxide nanoparticles includes preparing a solution containing a vanadium salt; impregnating an organic polymer including a nanosized pore with the prepared solution; and heating the organic polymer impregnated with the vanadium salt solution until the organic polymer is fired.

Abstract translation: 公开了一种制造氧化钒纳米颗粒的方法，其可以通过使用简单的低成本方法以高产率制备具有数十纳米尺寸的氧化钒颗粒。 制备钒氧化物纳米粒子的方法包括制备含有钒盐的溶液; 用制备的溶液浸渍包括纳米孔的有机聚合物; 并加热浸渍有钒盐溶液的有机聚合物直到有机聚合物烧制。

公开(公告)号：US20100035062A1

公开(公告)日：2010-02-11

申请号：US12402725

申请日：2009-03-12

Applicant: Chul Tack LIM ,  Chang Hwan Choi ,  Byoung Jin Chun ,  Jin Hyuck Yang

Inventor： Chul Tack LIM ,  Chang Hwan Choi ,  Byoung Jin Chun ,  Jin Hyuck Yang

IPC: B32B15/08 ,  B05D3/02

CPC classification number: C01G31/00 ,  C01P2002/85 ,  C01P2004/51 ,  C01P2004/52 ,  H01G4/10 ,  H01G4/1209 ,  Y10T428/2998

Abstract: Provided are manufacturing methods of a magnesium-vanadium composite oxide nanoparticle that make it possible to manufacture a composite oxide of several tens of nanometers in size containing two kinds of metals, and also to accurately design and manufacture a product material having a desired ratio between the metals, and a magnesium-vanadium composite oxide nanoparticle manufactured by the manufacturing methods. In the manufacturing method, a solution containing a magnesium salt and a vanadium salt is prepared. An organic polymer having nano-sized pores is dipped in the prepared solution, and is then heated until the organic polymer is calcined, thereby manufacturing a magnesium-vanadium composite oxide nanoparticle.

Abstract translation: 提供了一种镁 - 钒复合氧化物纳米颗粒的制造方法，其可以制造包含两种金属的尺寸为几十纳米的复合氧化物，并且还精确地设计和制造具有所需比例的产品材料 金属和通过制造方法制造的镁 - 钒复合氧化物纳米颗粒。 在制造方法中，制备含有镁盐和钒盐的溶液。 将具有纳米尺寸孔的有机聚合物浸入制备的溶液中，然后加热直到有机聚合物煅烧，从而制备镁 - 钒复合氧化物纳米颗粒。

公开(公告)号：US20100284125A1

公开(公告)日：2010-11-11

申请号：US11976073

申请日：2007-10-19

Applicant: Won Ha MOON ,  Chang Hwan CHOI ,  Chul Tack LIM ,  Young Nam HWANG

Inventor： Won Ha MOON ,  Chang Hwan CHOI ,  Chul Tack LIM ,  Young Nam HWANG

IPC: H01G4/008 ,  H01G4/005 ,  H01G4/10 ,  B05D5/12

CPC classification number: H01G4/01 ,  B82Y10/00 ,  H01G4/008 ,  H01G4/085 ,  H01G4/12 ,  H01G4/33 ,  H01L28/90

Abstract: Provided is a method of manufacturing a nanowire capacitor including forming a lower metal layer on a substrate; growing conductive nanowires on the lower metal layer, the conductive nanowires including metal and transparent electrodes; depositing a dielectric layer on the lower metal layer including the grown conductive nanowires; growing dielectric nanowires on the deposited dielectric layer; and depositing an upper metal layer on the dielectric layer including the grown dielectric nanowires.

Abstract translation: 提供一种纳米线电容器的制造方法，其包括在基板上形成下层金属层; 在下金属层上生长导电纳米线，导电纳米线包括金属和透明电极; 在包括生长的导电纳米线的下金属层上沉积介电层; 在沉积的介电层上生长介电纳米线; 以及在包括所述生长的电介质纳米线的介电层上沉积上金属层。