Patent application number | Description | Published |
20100245664 | DEVICE AND METHOD FOR ADAPTIVE BLENDING MOTION COMPENSATION INTERPOLATION IN FRAME RATE UP-CONVERSION - An adaptive blending MCI method and device thereof are disclosed in the embodiments of the present invention. The adaptive blending MCI method uses adjacent four motion vectors to get the corresponding pixels, and uses linear interpolation equation to blend four pixels to reduce block artifacts. The method uses adaptive weighting coefficient to favor reliable motion vector to avoid bad motion vector degrade image quality. | 09-30-2010 |
20100328532 | IMAGE GENERATING DEVICE, STATIC TEXT DETECTING DEVICE AND METHOD THEREOF - An image generating device and a method thereof are disclosed in the present invention. The image generating device and method may find out true motion for static text strings. The image generating device and method detect static text angles from consecutive frames and use a 3D-static text filter to recover correct motion vector fields. After our Static Text Detector fixing, the static text strings like subtitles can get more accurate motion vector and improve video quality. | 12-30-2010 |
20110075027 | APPARATUS AND METHOD OF FRAME RATE UP-CONVERSION WITH DYNAMIC QUALITY CONTROL - A frame rate up-conversion apparatus comprises a motion vector detecting circuit, a dynamic quality control circuit, a motion compensation circuit and a pull-down recovery circuit. According to quality of motion vectors, a corresponding image output mode is determined dynamically. A visual impact due to incorrect motion vectors is reduced and the visual experience is also improved. | 03-31-2011 |
20110109568 | TOUCH DISPLAY DEVICE - A touch display apparatus is disclosed. Without additional touch device, either the reversed AM structure or a conventional PM structure is provided to combine with the human body's conductive properties and the noise-immune sensing circuit design, thereby to achieve the purpose of displaying images and performing multi-touch detection simultaneously. Thus, the hardware cost and the power consumption are reduced. | 05-12-2011 |
20110119320 | DYNAMIC FILTERING DEVICE AND METHOD THEREOF - A dynamic filtering device includes a variation detector, a coefficient generator and a filter. The cut-off frequency of the filter is dynamically adjusted according to variations of an input signal. A higher signal-to-noise ratio is obtained when a finger moves in slow motion and its response time is reduced when the finger moves in fast motion, therefore improving the response time and the noise immunity of the filter. | 05-19-2011 |
Patent application number | Description | Published |
20110042152 | TOUCH SENSING APPARATUS AND METHOD - A touch sensing apparatus utilizes the characteristics of orthogonal vectors is disclosed. A random spread spectrum (RSS) signal or a periodic wave is used to modulate a driving signal so as to driving a row of a sensing array, and the RSS signal or periodic wave is also use to extract touch information of a node from a sensing signal measured from a column of the sensing array. The node is an intersection of the driven row and the measured column. When different RSS signals and/or periodic waves are used to drive multiple rows simultaneously, multipoint touching information can be obtained from the same sensing signal at the same time by respectively using the RSS signals and/or periodic waves to extract touching information of multiple points which are the intersections of the driven rows and the measured column. | 02-24-2011 |
20110042153 | TOUCH SENSING DEVICE AND METHOD USING RANDOM SPREAD SPECTRUM SIGNAL - A touch sensing device and method for detecting a touch event of a sensing array are disclosed. In the present invention, a random duration square wave signal is used to modulate a current or voltage signal so as to generate a modulated driving signal for driving a row of the sensing array. The random duration square wave signal has cycles of different durations so that the modulated driving signal also has the same cycles with the different durations. A sensing signal is measured from a column, for example, of the sensing array. Touching information is extracted by using the random duration square wave signal to demodulate the sensing signal. | 02-24-2011 |
20110063227 | PHASE-TAGGED CAPACITANCE SENSING CIRCUIT AND ELECTRONIC DEVICE USING THE SAME - An electronic device includes a touch panel, a driving circuit, and a sensing circuit. The driving circuit generates a driving signal, and superposes phase information on the driving signal. The touch panel includes multiple crossing conductors, for providing a sensing signal in response to a contact of an object on one of the sensing conductors and to a driving signal applied on the sensing element. The sensing circuit includes a signal extractor and a tag detector. The signal extractor generates a demodulation signal based on the period of the driving signal, width of the phase information, and for demodulating the sensing signal by using the demodulation signal to determine a sensing value. The tag detector enables the signal extractor as soon as a magnitude of the sensing signal is over a predetermined threshold. The signal demodulates the sensing signal by using a demodulation signal whose period is the same as the driving signal to determine the sensing value. The present electronic device can determine a touch position by processing of analog signal using the demodulation signal without phase compensation. | 03-17-2011 |
20110141054 | MULTIPLE FINGERS TOUCH SENSING METHOD USING MATCHING ALGORITHM - A touch sensing method for detecting positions of touching is disclosed. In the present invention, a reference touch profile is provided. A variable ideal combination profile indicating multiple touches is obtained by synthesizing a plurality of reference touch profiles at different positions. The variable ideal combination profile is matched with a sensing signal. Actual touch positions can be identified from the sensing signal when the matching of the variable ideal combination profile with the sensing signal is optimal. | 06-16-2011 |
20110248932 | GHOST CANCELLATION METHOD FOR MULTI-TOUCH SENSITIVE DEVICE - A ghost cancellation method for the multi-touch sensitive device is disclosed. The multi-touch sensitive device includes a sensing array having multiple lines of a first axis and multiple lines of a second axis intersecting with each other. All the lines of the sensing array are scanned to determine which ones of the lines are touched, so as to determine touch point candidates. For each touch point candidate, a driving signal is applied to the line of the first axis, and the line of the second axis is detected to check if the touch point candidate is actually touched. | 10-13-2011 |
Patent application number | Description | Published |
20110215593 | ON-ROAD ENERGY CONVERSION AND VIBRATION ABSORBER APPARATUS - An on-road energy conversion and vibration absorber apparatus receives the kinetic energy from moving vehicles and pedestrians when being weighed down, and converts the received kinetic energy into a potential energy using a restorable elastic element compressing a fluid thereby storing the potential energy in a pressure chamber, and then conducting the pressurized fluid to pass though a check valve along a conduit and drive a vane wheel by releasing its potential energy. The vane wheel in turn drives a generator to generate electric energy, and the vibration of the vehicles is alleviated by cushion effect provided by the apparatus. | 09-08-2011 |
20140055943 | METAL SHOCK ABSORBER, ASSEMBLY OF METAL SHOCK ABSORBER AND MEDIA RECORDING UNIT AND MEDIA RECORDING DEVICE - A metal shock absorber, an assembly of a metal shock absorber and a media recording unit, and a media recording device are provided. The metal shock absorber has a pair of horizontal portions, a perpendicular portion connected between the horizontal portions, and a pair of limiting portions. Each of the horizontal portions has a first arcuate protrusion protruding towards another first arcuate protrusion. The perpendicular portion is perpendicularly connected between the pair of horizontal portions, and has an assembling arm. The limiting portions are disposed at opposite sides of the perpendicular portion that are not connected with the horizontal portions. Since the thickness, the tolerance and costs of the metal shock absorber are less than those of the conventional rubber shock absorber, the assembly of the metal shock absorber with the media recording unit has a favorable assembly reliability, and therefore costs of the recording device are effectively lowered. | 02-27-2014 |
Patent application number | Description | Published |
20140191714 | WIRELESS TRANSMITTING DEVICE FOR WIRELESS CHARGING - A wireless transmitting device for wireless charging includes a main body, a first encapsulated transmission coil and a second encapsulated transmission coil. The first encapsulated transmission coil and the second encapsulated transmission coil are disposed in the main body, and the second encapsulated transmission coil is adjacent to the first encapsulated transmission coil. Each of the first encapsulated transmission coil and the second encapsulated transmission coil has a quadrangular winding configuration so that the magnetic flux generated at the short-side section of the first or second encapsulated transmission coil is greater than the magnetic flux generated by an encapsulated transmission coil having a circular winding configuration. Therefore, the wireless charging range of the wireless transmitting device for wireless charging is improved. | 07-10-2014 |
20140217091 | WIRELESS HEAT GENERATION DEVICE AND WIRELESS HEAT GENERATION SYSTEM - A wireless heat generation device includes an antenna, a controller, a heating element, and a temperature sensor. The antenna is used for receiving a radio wave and converting the radio wave into electric energy. The controller is used for receiving the electric energy and providing an electric power to the heating element. After the electric power is received by the heating element, the electric power is converted into heat. The temperature sensor is used for sensing a temperature within the wireless heat generation device. If the temperature reaches a preset temperature, the controller stops providing the electric power to the heating element. Consequently, the possibility of causing an overheating problem of the wireless heat generation device will be eliminated. | 08-07-2014 |
20160099600 | WIRELESS CHARGING METHOD AND WIRELESS CHARGING SYSTEM - A wireless charging method and a wireless charging system are provided. The wireless charging system includes plural wireless power transmitting devices and a wireless power receiving device. The plural wireless power transmitting devices generate plural energy fields. The energy fields contain plural identification signals, respectively. After the identification signals are decoded, the wireless power receiving device recognizes the plural wireless power transmitting devices corresponding to the plural identification signals. The wireless power receiving device is in wireless connection with the most appropriate wireless power transmitting device to perform the wireless charging task. Consequently, the wireless charging efficiency is enhanced. | 04-07-2016 |
Patent application number | Description | Published |
20150016782 | BI-DIRECTIONAL DATA TRANSMISSION METHOD, HIGH-FREQUENCY CONNECTOR AND OPTICAL CONNECTOR USING THE SAME - The instant disclosure relates to bi-direction data transmission method, high-frequency connector and an optical connector using the same. The optical connector includes a first circuit board, a second circuit board, a high-frequency connector and an optical fiber cable. One optical engine is set on the first circuit board. The high-frequency connector is set between the first circuit board and the second circuit board for connecting both two circuit boards. The high-frequency connector includes an insulation base. The insulation base has at least one terminal-accommodating region. Pluralities of connection terminals are inserted into the terminal-accommodating regions of the insulation base. The optical fiber cable connects to the one optical engine. | 01-15-2015 |
20150155665 | SIGNAL TRANSMISSION CONNECTOR - A signal transmission connector includes an insulating body, a plurality of first terminals, a plurality of second terminals, and a rear casing. The insulating body has a dielectric constant of about 3 to 3.4. The first and second terminals are disposed on the insulating body. The first and second terminals have widths of about 0.36 to 0.42 mm. The rear casing is assembled at the second end of the insulating body. The rear casing envelops the first and the second terminals. The rear casing has a dielectric constant of about 3.5 to 3.8. The connector provides adjustable impedance without modifications to the terminal structures and also reduces cost. | 06-04-2015 |
20160079709 | SIGNAL TRANSMISSION CONNECTOR - A signal transmission connector includes an insulating body, a plurality of first terminals, a plurality of second terminals, and a rear casing. The insulating body has a dielectric constant of about 3 to 3.4. The first and second terminals are disposed on the insulating body. The first and second terminals have widths of about 0.36 to 0.42 mm. The rear casing is assembled at the second end of the insulating body. The rear casing envelops the first and the second terminals. The rear casing has a dielectric constant of about 3.5 to 3.8. The connector provides adjustable impedance without modifications to the terminal structures and also reduces cost. | 03-17-2016 |
Patent application number | Description | Published |
20140315385 | METHOD OF FORMING A DIELECTRIC FILM - A method for flowable oxide deposition is provided. An oxygen source gas is increased as a function of time or film depth to change the flowable oxide properties such that the deposited film is optimized for gap fill near a substrate surface where high aspect ratio shapes are present. The oxygen gas flow rate increases as the film depth increases, such that the deposited film is optimized for planarization quality at the upper regions of the deposited film. | 10-23-2014 |
20150084131 | GATE HEIGHT UNIFORMITY IN SEMICONDUCTOR DEVICES - Methods of facilitating gate height uniformity by controlling recessing of dielectric material and semiconductor devices formed from the methods are provided. The methods include, for instance, forming a transistor of the semiconductor device with an n-type transistor and a p-type transistor, the n-type transistor and the p-type transistor including plurality of sacrificial gate structures and protective masks at upper surfaces of the plurality of sacrificial gate structures; providing a dielectric material over and between the plurality of sacrificial gate structures; partially densifying the dielectric material to form a partially densified dielectric material; further densifying the partially densified dielectric material to create a modified dielectric material; and creating substantially planar surface on the modified dielectric material, to control dielectric material recess and gate height. | 03-26-2015 |
20150123250 | METHODS OF FABRICATING DEFECT-FREE SEMICONDUCTOR STRUCTURES - Methods of facilitating fabrication of defect-free semiconductor structures are provided which include, for instance: providing a dielectric layer, the dielectric layer comprising at least one consumable material; selectively removing a portion of the dielectric layer, wherein the selectively removing consumes, in part, a remaining portion of the at least one consumable material, leaving, within the remaining portion of the dielectric layer, a depleted region; and subjecting the depleted region of the dielectric layer to a treatment process, to restore the depleted region with at least one replacement consumable material, thereby facilitating fabrication of a defect-free semiconductor structure. | 05-07-2015 |
20150270364 | GATE HEIGHT UNIFORMITY IN SEMICONDUCTOR DEVICES - Methods of facilitating gate height uniformity by controlling recessing of dielectric material and semiconductor devices formed from the methods are provided. The methods include, for instance, forming a transistor of the semiconductor device with an n-type transistor and a p-type transistor, the n-type transistor and the p-type transistor including plurality of sacrificial gate structures and protective masks at upper surfaces of the plurality of sacrificial gate structures; providing a dielectric material over and between the plurality of sacrificial gate structures; partially densifying the dielectric material to form a partially densified dielectric material; further densifying the partially densified dielectric material to create a modified dielectric material; and creating substantially planar surface on the modified dielectric material, to control dielectric material recess and gate height. | 09-24-2015 |
20150357292 | METHODS OF FABRICATING DEFECT-FREE SEMICONDUCTOR STRUCTURES - Methods of facilitating fabrication of defect-free semiconductor structures are provided which include, for instance: providing a dielectric layer, the dielectric layer comprising at least one consumable material; selectively removing a portion of the dielectric layer, wherein the selectively removing consumes, in part, a remaining portion of the at least one consumable material, leaving, within the remaining portion of the dielectric layer, a depleted region; and subjecting the depleted region of the dielectric layer to a treatment process, to restore the depleted region with at least one replacement consumable material, thereby facilitating fabrication of a defect-free semiconductor structure. | 12-10-2015 |
Patent application number | Description | Published |
20130301240 | BACKLIGHT MODULE - A backlight module including a chamber, a bottom reflector, a plurality of light sources, and a plurality of lenses is provided. The chamber has a bottom surface and a side surface. The bottom reflector is disposed inside the chamber and located on the bottom surface. The light sources are disposed inside the chamber and located above the bottom reflector. Each light source is adjacent to the side surface and provides light. The lenses are disposed on a transmission path of the light. Each lens has a back surface, a cavity on the back surface, and a light-emitting surface. The cavity has a light-incident surface. Each light source is arranged corresponding to one of the lenses and adjacent to the cavity. The light, after passing the lenses, is divided into light beams with different propagating directions. The light beams irradiate the bottom reflector. | 11-14-2013 |
20130343061 | LIGHT SOURCE MODULE - A light source module is provided, which includes at least one light emitting unit and at least one light guide element. The light emitting unit includes a light source and a lens structure. The light source is used for emitting a light beam. The lens structure has a bottom surface, a top surface opposite to the bottom surface, and a first surface connecting the bottom surface and the top surface. The bottom surface has a first recess and a second recess connecting the first recess and the first surface. The top surface has a third recess. The light guide element includes at least one opening and a plurality of first optical micro-structures disposed beside the opening. The light emitting unit is disposed in the opening. The light beam passes through the lens structure and enters the light guide element via the opening. | 12-26-2013 |
20140160750 | LIGHT EMITTING UNIT - A light emitting unit includes a light source device and a reflector. The light source device extends in parallel with an extension direction, and is capable of providing a light beam. The reflector is configured under the light source device and extends in parallel with the extension direction. The reflector has a first protrusion and a pair of second protrusions located on two sides of the first protrusion, the first protrusion has a peak portion and two trough portions, the second protrusion has a peak portion and a trough portion, and the two trough portions of the first protrusion are respectively connected to the trough portions of the two second protrusions to provide a fluctuant reflection surface, and a height of a cross section contour of the pair of the second protrusions in parallel with the extension direction is decreased from a centre to two ends of the reflector. | 06-12-2014 |
20150036335 | LIGHT-SOURCE MODULE - A light-source module includes an optical film and at least one light-source unit, which together enclose a space. The light-source unit includes a reflective assembly, a light-concentrating unit and at least one light-emitting assembly. The light-concentrating unit has a light exiting end and a light incidence end, and the light exiting end faces the space enclosed by the light-source unit and the optical film. The optical-axis direction of the light-emitting assembly is defined as a first direction, and the direction perpendicular to both the first direction and the optical film is defined as a second direction. The length of the light-concentrating unit in the first direction is defined as a light-concentrating distance, the width of the light exiting end in the second direction is defined as a light exiting width, and the ratio of the light-concentrating distance over the light exiting width is greater than 0.5 but less than 10. | 02-05-2015 |
20150103522 | LIGHT SOURCE MODULE - A light source module includes at least one light bar, a reflector, and at least one bar-shaped reflection unit. The light bar includes light-emitting elements arranged along an extension direction. The reflector has at least one accommodation space accommodating the light bar and reflective convex surfaces located on two opposite sides of the light bar. The bar-shaped reflection unit is located above the light bar, extends along the extension direction, and has a reflection surface facing the light bar. A cross-sectional line obtained by cutting the reflection surface along an optical axis of any of the light-emitting elements and along a direction perpendicular to the extension direction includes a convex arc line protruding toward the light-emitting elements and two concave arc lines connected to two opposite sides of the convex arc line. | 04-16-2015 |
20150192268 | LIGHT SOURCE MODULE - A light source module including an optical film, a bottom reflector, a top reflector, a light converging element, and a light emitting element is provided. The bottom reflector is located under the optical film. The top reflector and the light converging element are located at opposite sides of the optical film. The optical film, the bottom reflector, the top reflector, and the light converging element enclose a space. The light converging element has a first portion, a second portion, and a third portion. The light emitting element is disposed in the space and has an optical axis direction, where the third portion has a first surface facing the first portion, a first angle having a range of 5-10 degrees is included between the optical axis direction and a connection line between the light emitting element and one end of the first surface away from the light emitting element. | 07-09-2015 |
20150316235 | LIGHT SOURCE MODULE - A light source module including an optical film and at least one light source unit is provided. The light source unit and the optical film enclose a space. The light source unit includes a reflecting device, at least one light bar, and a collimated unit. The reflecting device is disposed under the optical film. The light bar includes a plurality of light-emitting elements arranged along a third direction. The collimated unit extends along a direction parallel to the third direction and includes an upper reflective portion and a lower reflective portion. A shortest distance between one end of the lower reflective portion located adjacent to the reflecting device and the optical axis of the light-emitting elements along a second direction is defined as a first half light-emitting width, which is gradually increased along the third direction from a center portion of the collimated unit towards two sides thereof. | 11-05-2015 |
20160025297 | LENS AND BACKLIGHT MODULE - A lens includes a central portion and a surrounding portion. The central portion has a first and a second optical surfaces. The surrounding portion surrounds the central portion and has an inner refraction wall and an outer refraction wall. The outer refraction wall includes a first and a second outer surfaces. A distance between the symmetry axis and a junction of the inner refraction wall and the first optical surface is a first radius R | 01-28-2016 |
Patent application number | Description | Published |
20140283629 | KEYBOARD TESTING MACHINE - A keyboard testing machine for testing a keyboard of an electronic apparatus is provided. The keyboard testing machine includes a rack, a fixing base, and a pressing module. The fixing base is operatively connected to the rack and located over the electronic apparatus. The pressing module is located over the keyboard and includes a drive shaft, a rotating member, and a pressing assembly. The drive shaft is rotatably disposed on the fixing base. The rotating member is sleeved onto the drive shaft and has a cam portion. The pressing assembly is operatively connected to the fixing base and the cam portion. When the drive shaft rotates together with the rotating member, the cam portion drives the pressing assembly to linearly move relative to the fixing base, so as to make the pressing assembly cyclically press the keyboard. | 09-25-2014 |
20140305231 | KEYBOARD TESTING MACHINE - A keyboard testing machine for testing a keyboard of an electronic apparatus is apparatus. The electronic apparatus is carried on a conveyor. The keyboard testing machine includes a rack, a 3D movement apparatus, a linear encoder, a first driving module, and a pressing module. A first slide rail of the rack is parallel to the conveying direction of the conveyor. The 3D movement apparatus is slidably disposed on the first slide rail. The linear encoder is used to detect the conveying speed of the conveyor. The first driving module is disposed on the rack for driving the 3D movement apparatus to move along the first slide rail with the conveying speed. The pressing module is operatively connected to the 3D movement apparatus. The 3D movement apparatus makes the pressing module press the keyboard, and moves the pressing module along a pressing path relative to the keyboard. | 10-16-2014 |
Patent application number | Description | Published |
20150332495 | GRAPHICS PROCESSING METHOD AND GRAPHICS PROCESSING APPARATUS - A graphics processing method and an associated graphics processing apparatus are provided, where the graphics processing method is applied to the graphics processing apparatus, the graphics processing apparatus may be positioned within an electronic device, and the graphics processing apparatus may comprise at least one portion of the electronic device. The graphics processing method includes the steps of: calculating vertex positions of a primitive in a binning phase; determining, according to specific information, whether to compute vertex varyings of the primitive in the binning phase or in a rendering phase so as to provide a determination result; computing the vertex varyings in the binning phase or in the rendering phase according to the determination result; and rendering the primitive according to the vertex positions and the vertex varyings in the rendering phase. | 11-19-2015 |
20160005143 | GRAPHICS PROCESSING SYSTEM FOR DETERMINING WHETHER TO STORE VARYING VARIABLES INTO VARYING BUFFER BASED AT LEAST PARTLY ON PRIMITIVE SIZE AND RELATED GRAPHICS PROCESSING METHOD THEREOF - A graphics processing system includes a decision logic and a varying buffer control circuit. The decision logic sets a control signal by checking at least one criterion, wherein the at least one criterion includes a first criterion, and a checking result of the first criterion depends on a size of a primitive. The varying buffer control circuit refers to the control signal to determine whether to store varying variables of the primitive into a varying buffer. | 01-07-2016 |
20160005208 | APPARATUS AND METHOD FOR CONTROLLING EARLY DEPTH PROCESSING AND POST DEPTH PROCESSING - A depth processing apparatus includes a depth buffer, an early depth processing circuit, a post depth processing circuit, and a depth processing controller. The depth buffer stores depth information of a plurality of pixels of a screen space. The early depth processing circuit performs early depth processing based on at least a portion of the depth information before a pixel shading stage. The post depth processing circuit performs post depth processing based on at least a portion of the depth information after the pixel shading stage. The depth processing controller manages a plurality of dependency indication values corresponding to a plurality of sub-regions in the screen space, respectively, and configured to control a first pixel for undergoing at least one of the early depth processing and the post depth processing by referring a first dependency indication value of a first sub-region in which the first pixel is located. | 01-07-2016 |
Patent application number | Description | Published |
20110104077 | Magnetic nanocomposite with multi-biofunctional groups and method for fabricating the same - The present invention proposes a magnetic nanocomposite with multi-biofunctional groups, which comprises a core and a shell wrapping the core, wherein the core contains magnetic nanoparticles, and wherein the shell is made of a conductive polymer with multi-biofunctional groups where a medicine, an antibody or a fluorescent label can be attached. | 05-05-2011 |
20130011485 | MAGNETIC NANOMEDICINE FOR INHIBITING/TREATING HUMAN PROSTATE CANCER - The present invention discloses a magnetic nanomedicine for inhibiting/treating human prostate cancer, which comprises a core containing a magnetic particle having a diameter of less than 10 nm; a shell made of a carboxylated polyaniline and encapsulating the core; and a medicine covalently linked to the shell and able to inhibit/treat prostate cancer. The magnetic nanomedicine of the present invention not only has superior thermal stability and but also has water solubility higher than that of the conventional anti-prostate cancer medicine. Further, the magnetic nanomedicine of the present invention can be magnetically conducted to the cancer area to increase the local concentration of medicine and enhance the therapeutic effect. | 01-10-2013 |
20130251814 | MAGNETIC NANODRUG FOR TREATING THROMBOSIS - The present invention discloses a magnetic nanodrug for treating thrombosis, which comprises a core formed of magnetic nanoparticles, a shell enveloping the core and made of carboxyl-functionalized polyaniline, and a thrombosis-treatment drug covalently bonded to the shell. The magnetic nanodrug of the present invention is non-toxic to vascular endothelial cells, has superior stability, features superparamagnetism, and can be uniformly dissolved in water. Therefore, the magnetic nanodrug for treating thrombosis can be guided by an external magnetic field to concentrate on a specified region and increase the effect of thrombosis treatment. | 09-26-2013 |