Abstract: The present invention provides long half life genetically modified TFPI sequences (LTFPI) for anticoagulation. On the genetically modified TFPI sequence, the lysine at the carboxy-terminal sites 241, 254, 260 and 261 are replaced by alanin and the amino acid asparagine at glycosylation sites 117, 167, 228 and the amino acids serine and threonine at glycosylation sites 174 and 175 are substitutionally mutated. The present invention also provides methods of making the LTFPI through high efficient LTFPI expression from yeast production system.

Abstract: A substrate and mask attachment clamp device comprising a push assembly, an upper clamp mechanism and a lower clamp mechanism is disclosed. The upper clamp mechanism comprises a first inclined surface, a swing element, a second inclined surface and a sliding surface. The lower clamp mechanism comprises a lower clamp retainer and a clamp movably. During the push assembly moving along a first direction, the push assembly moves with respect to the first inclined surface to drive the upper clamp mechanism to move along a second direction. The push assembly further drives the second inclined surface to move with respect to the swing element, so that the swing element drives the clamp to move along a third direction opposite to the first direction, and drives the sliding surface to move with respect to the lower clamp mechanism to drive the clamp to move along a fourth direction.

Abstract: The present invention teaches a new mesh bag made from a roll of continuous mesh tube cloth. The continuous tube cloth and at least one band with preprinted labels are used in a machine which props up the tube cloth with a dynamic guiding assembly, attaches the preprinted labels to the tube cloth using hot melted adhesive or heat sealing methods. The tube cloth is attached with the horizontal preprinted labels and the plastic film to the tube mesh cloth. A pair of holes are punched over the plastic film.

Abstract: The present invention teaches a new process for manufacturing mesh bags using a tube cloth. The process involve supplying a continuous tube cloth and at least one band with preprinted labels, propping up the tube cloth with a dynamic guiding assembly, attaching the preprinted labels to the tube cloth using hot melted adhesive or heat sealing methods and manufacturing a product from the tube cloth with the horizontal preprinted labels, and attaching plastic film to the tube mesh cloth.

Abstract: A method for depositing a microcrystalline silicon film is disclosed, including performing an open loop and close loop plasma enhanced deposition process without and with modulating process parameters, respectively. A film is deposited by the open loop plasma enhanced deposition process till a required film crystallinity and then performing a closed loop plasma enhanced deposition process which monitors species plasma spectrum intensities SiH* and H? and modulates process parameters of the plasma enhanced deposition process resulting in the species concentration stabilization which controls the intensities variation of SiH* and H? within an allowed range of a target value for improving film depositing rate.

Abstract: A low-profile large current inductor includes an iron core having an expanded upper part, an expanded lower part, a core shank connected between the expanded upper part and the expanded lower part, two wire-mounting grooves extending across the bottom wall of the expanded lower part in a parallel manner and four arched notches respectively located on the expanded lower part at each of two distal ends of each of the two wire-mounting grooves, a winding wound round the core shank of the iron core with two end portions thereof respectively extended through the arched notches into the wire-mounting grooves, two flat electrodes respectively attached to the wire-mounting grooves and respectively connected with the end portions of the winding, and a magnetic coating surrounding the winding. The iron core has full round fillets in corner areas thereof for the passing of the two opposite end portions of the winding.

Abstract: The present invention teaches a new apparatus and process for manufacturing mesh bags using a tube cloth. The apparatus and process involve supplying a continuous tube cloth and at least one band with preprinted labels, propping up the tube cloth with a dynamic guiding assembly, attaching the preprinted labels to the tube cloth using hot melted adhesive or heat sealing methods and manufacturing a product from the tube cloth with the horizontal preprinted labels, and attaching plastic film to the tube mesh cloth. The invention also teaches a dynamic guiding assembly which can be used to punch holes on the tube cloth with heating press and avoid attaching of two opposite sides of the tube cloth.

Abstract: The deposition apparatus has a plurality of said transmission mechanisms arranged therein in a symmetrical manner. Each transmission mechanism comprises: a drive shaft, formed with a tapered end; a driving wheel, configured with a shaft hole for the tapered end to bore coaxially therethrough; a plurality of slide pieces, radially mounted to the driving wheel; a first elastic member, mounted enabling the plural slide pieces to be ensheathed thereby; a second elastic member, disposed between the first elastic member and the first axial end of the drive shaft while being mounted to the periphery of the driving wheel; an enclosure, configured with an opening; wherein, the driving wheel that is moving in a reciprocating manner drives the sliding pieces to slide in radial directions, thereby, causing the outer diameter of the first elastic member to change accordingly and enabling the opening of the enclosure to open or close in consequence.

Abstract: A cathode discharge device is provided. The cathode discharge apparatus includes an anode, a cathode and plural cathode chambers. The cathode is located inside the anode, where the cathode has plural flow channels and at least one flow channel hole, and the plural flow channels are connected to one another through the flow channel hole. The plural cathode chambers are located inside the cathode, wherein each of the cathode chambers has a chamber outlet and a chamber inlet connected with at least one of the flow channels.

Abstract: A view port device for a plasma process and a process observation device of a plasma apparatus are provided. The view port device for a plasma process comprises a first substrate portion, a second substrate portion, and a connecting portion. The first substrate portion has a first through hole. The second substrate portion has a second through hole and a second diffusion space. A cross-sectional area of the second diffusion space is larger than that of the second through hole. The connecting portion is disposed between the first substrate portion and the second substrate portion.

Abstract: The present invention provides long half life genetically modified TFPI sequences (LTFPI) for anticoagulation. On the genetically modified TFPI sequence, the lysine at the carboxy-terminal sites 241, 254, 260 and 261 are replaced by alanin and the amino acid asparagine at glycosylation sites 117, 167, 228 and the amino acids serine and threonine at glycosylation sites 174 and 175 are substitutionally mutated. The present invention also provides methods of making the LTFPI through high efficient LTFPI expression from yeast production system.

Abstract: The present invention provides long half life genetically modified TFPI sequences (LTFPI) for anticoagulation. On the genetically modified TFPI sequence, the lysine at the carboxy-terminal sites 241, 254, 260 and 261 are replaced by alanin and the amino acid asparagine at glycosylation sites 117, 167, 228 and the amino acids serine and threonine at glycosylation sites 174 and 175 are substitutionally mutated. The present invention also provides methods of making the LTFPI through high efficient LTFPI expression from yeast production system.

Abstract: The present disclosure provides a surface processing apparatus, comprising a reaction chamber provided to form a deposition layer on a substrate, a carrying chamber connected to the reaction chamber and comprising a slot, and a plasma generator installed in the slot and providing plasma to process the substrate surface. Whereby the disclosure further provides a surface processing method, which flatten surface of a deposition layer on the substrate when the substrate is carried form the reaction chamber to the carrying chamber after the deposition process in the reaction chamber.

Abstract: The invention teaches a new way to make mesh bags using adhesive labels and continuous mesh tubing. Using adhesive labels on continuous mesh tubing is made possible by guiding the mesh tubing both on the outside of the tubing and the inside of the tubing so that an adhesive label does not stick to the mesh surface on the other side of the mesh tubing. As a result the invention also teaches a new type of mesh bag made with this process and a new machine used for making mesh bags.

Abstract: The invention teaches a new way to make mesh bags using adhesive labels and continuous mesh tubing. Using adhesive labels on continuous mesh tubing is made possible by guiding the mesh tubing both on the outside of the tubing and the inside of the tubing so that an adhesive label does not stick to the mesh surface on the other side of the mesh tubing. As a result the invention also teaches a new type of mesh bag made with this process and a new machine used for making mesh bags.

Abstract: The invention teaches a new way to make mesh bags using adhesive labels and continuous mesh tubing. Using adhesive labels on continuous mesh tubing is made possible by guiding the mesh tubing both on the outside of the tubing and the inside of the tubing so that an adhesive label does not stick to the mesh surface on the other side of the mesh tubing. As a result the invention also teaches a new type of mesh bag made with this process and a new machine used for making mesh bags.

Abstract: A structure for increasing utilization rate of target is disclosed, which comprises: a magnetic base, capable of moving relative to a target in a reciprocating manner; and two magnetic conductors, disposed respectively at two motion limits with respect to the reciprocating range of the magnetic base. Thereby, when the magnetic base is moved to a position close to any one of magnetic conductors, the surface magnetic field intensity of the target that is caused by the magnetic base is reduced so that the ion bombardment happening at the two ends of the target will be eased off for increasing the utilization rate of the target.

Abstract: A method for depositing a microcrystalline silicon film is disclosed, including performing an open loop and close loop plasma enhanced deposition process without and with modulating process parameters, respectively. A film is deposited by the open loop plasma enhanced deposition process till a required film crystallinity and then performing a closed loop plasma enhanced deposition process which monitors species plasma spectrum intensities SiH* and H? and modulates process parameters of the plasma enhanced deposition process resulting in the species concentration stabilization which controls the intensities variation of SiH* and H? within an allowed range of a target value for improving film depositing rate.

Abstract: The invention teaches a new way to make mesh bags using adhesive labels and continuous mesh tubing. Using adhesive labels on continuous mesh tubing is made possible by guiding the mesh tubing both on the outside of the tubing and the inside of the tubing so that an adhesive label does not stick to the mesh surface on the other side of the mesh tubing. As a result the invention also teaches a new type of mesh bag made with this process and a new machine used for making mesh bags.

Abstract: The present invention provides a gas distribution plate for providing at least two gas flowing channel. In one embodiment, the gas distribution plate has a first flowing channel, at least a second flowing channel disposed around the first flowing channel, and a tapered opening communicating with the first and the second flowing channel. In another embodiment, the gas distribution plate has a first flowing channel passing through a first and a second surface of the gas distribution plate, a second flowing channel paralleling to the first surface and a third flowing channel disposed at the second surface and communicating with the second flowing channel. The ends of the first and the third flowing channel have a tapered opening respectively. Besides, the present further provides a gas distribution apparatus for allowing at least two separate gases to be delivered independently into a process chamber while enabling the gases to be mixed completely after entering the processing chamber.