OCI Co.

Seongnam, South Korea
Seongnam, South Korea

Time filter

Source Type

The present invention relates to a polysilicon filament manufacturing device, and more specifically, to a polysilicon filament binding device for manufacturing a polysilicon filament having a desired length by connecting polysilicon fragments cut from damage, etc. The present invention provides a polysilicon filament binding device comprising: a body part having a barrel-shape; a guide part provided inside the body part, guiding incoming polysilicon fragments; and a main light source for heating the binding surfaces of the polysilicon fragments.


Provided are a paper material for fibrous casing enabling a fibrous casing to deliver favorable performance, a production method thereof, and a fibrous casing employing the paper material for fibrous casing. The paper material for fibrous casing of the present invention is used as a food packaging material in heat processing of a foodstuff, and is formed from pulp as a principal component, with one face being a glossy face and another face being a matte face. The fibrous casing of the present invention comprises: a paper layer that is arranged as an innermost layer and formed from a paper material; and a synthetic resin layer that is overlaid on an outer face of the paper layer, the paper material being the paper material for fibrous casing. The matte face of the paper material is preferably directed inward. The glossy face of the paper material is also preferably directed inward.


Patent
OCI Co. | Date: 2016-12-16

The present disclosure relates to a sulfur-carbon composite and a preparing method thereof, and more particularly, to a sulfur-carbon composite having an aggregated structure by performing a pressure heat treatment on a mixture of a carbonaceous conductive material and a sulfur-containing amorphous carbon material and carbonizing the same, and a preparing method thereof. According to the present disclosure, the sulfur and the amorphous carbon material are present in the sulfur-carbon composite including the sulfur-containing amorphous carbon material and the carbonaceous conductive material by being aggregated through the pressure heat treatment and the carbonization process. As a carbon component in a carbon matrix of the amorphous carbon material and the sulfur are chemically bonded to each other, the sulfur may be prevented from leaking from the composite.


The present disclosure relates to a polysilicon preparation apparatus for preventing ground fault current and having an excellent effect of removing silicon dust. The polysilicon preparation apparatus includes a chamber comprising a housing with an opened lower portion and a base plate coupled to the lower portion of the housing, and a ceramic particle layer on an upper surface of the base plate, for preventing silicon dusts generated during a process from directly contacting the base plate and to be removed together with silicon dusts after the process.


Patent
OCI Co. | Date: 2017-06-14

The present disclosure relates to a polysilicon preparation apparatus for preventing ground fault current and having an excellent effect of removing silicon dust. The polysilicon preparation apparatus includes a chamber comprising a housing with an opened lower portion and a base plate coupled to the lower portion of the housing, and a ceramic particle layer on an upper surface of the base plate, for preventing silicon dusts generated during a process from directly contacting the base plate and to be removed together with silicon dusts after the process.


A method for measuring an electrolyte balance of a redox flow battery may include: charging the redox flow battery by applying a current to a stack; measuring temperatures of an anode electrolyte solution and a cathode electrolyte solution while the redox flow battery is charged; calculating a temperature change rate of the anode electrolyte solution over time and a temperature change rate of the cathode electrolyte solution over time; deciding a first change time corresponding to an inflection point of the temperature change rate of the anode electrolyte solution over time and a second change time corresponding to an inflection point of the temperature change rate of the cathode electrolyte solution over time; and calculating an average electrolyte oxidation number of the redox flow battery, using the first change time, the second change time, an oxidation number of the anode electrolyte and an oxidation number of the cathode electrolyte.


Disclosed herein are an apparatus and a method for producing aluminum nitride powder, and aluminum nitride powder prepared thereby. The apparatus for producing aluminum nitride powder includes: a vertical reactor including an aluminum source supplier for supplying aluminum source and a nitrogen source supplier for supplying nitrogen source, the vertical reactor causing chemical vapor reaction between the aluminum source and the nitrogen source supplied therein; a trap device including a membrane for passing resulting products from the reaction; and a bubbling device for capturing the products having passed through the trap device.


The Si-block copolymer core-shell nanoparticles include: a Si core; and a block copolymer shell including a block having relatively relatively high affinity for Si and a block having relatively low affinity for Si and forming a spherical micelle structure around the Si core. Since the Si-block copolymer core-shell nanoparticles exhibit excellent dispersibility and stability in a mixed solution including the same, the Si-block copolymer core-shell nanoparticles are easily applied to an anode active material for lithium secondary battery by carbonization thereof. In addition, since the anode active material for lithium secondary battery using the Si-block copolymer core-shell nanoparticles includes carbonized Si-block copolymer core-shell nanoparticles and pores, the anode active material has long lifespan, high capacity and high energy density, and the block copolymer shell of the carbonized Si-block copolymer core-shell nanoparticles can improve lifespan of lithium secondary battery by buffering volumetric change thereof during charge and discharge.


The present disclosure relates to a composition for preparing a silicon-carbon composite having nano-Si particulates and electrically conductive materials dispersed in an amorphous carbon, the silicon-carbon composite prepared therefrom, an electrode for secondary battery comprising the silicon-carbon composite, and a method for producing the silicon-carbon composite.


Disclosed herein are an apparatus and a method for producing aluminum nitride powder, and aluminum nitride powder prepared thereby. The apparatus for producing aluminum nitride powder includes: a vertical reactor including an aluminum source supplier for supplying aluminum source and a nitrogen source supplier for supplying nitrogen source, the vertical reactor causing chemical vapor reaction between the aluminum source and the nitrogen source supplied therein; a trap device including a membrane for passing resulting products from the reaction; and a bubbling device for capturing the products having passed through the trap device.

Loading OCI Co. collaborators
Loading OCI Co. collaborators