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1. 发明申请

WO2011139137A1 DEVICE WITH CARBON NANOTUBE 审中-公开
标题翻译：具有碳纳米管的装置
公开(公告)号：WO2011139137A1
公开(公告)日：2011-11-10
申请号：PCT/MY2011/000034
申请日：2011-04-19
申请人： MIMOS BERHAD , DANIEL, Bien Chia Sheng , TEH, Aun Shih , MOHSEN, Nabipoor
发明人： DANIEL, Bien Chia Sheng , TEH, Aun Shih , MOHSEN, Nabipoor
IPC分类号： H01G7/00 , B82B3/00 , C01B31/00
CPC分类号： H01G7/00
摘要： The present invention provides a device with carbon nanotubes wherein the nanotubes (20) are grown vertically onto the substrate surface and in-between the fingers of an interdigital structure. The completed array of conductive interdigitated fingers with a plurality of the vertical carbon nanotubes are then integrated as an interdigital device where this device operates based on the fringing electric field effects. At least two conductive fingers (22) spaced apart act as electrodes of capacitor. A plurality of carbon nanotubes (20) is vertically formed on top of conductive fingers or between conductive fingers. Carbon nanotubes have permittivity which changes according to environment, hence affecting capacitance measured. Different embodiments of device having the nanotubes placed in trench are shown. The carbon nanotube interdigital device can operate as a sensor for application in areas of agriculture, aquaculture, environmental monitoring and biomedical.
摘要翻译：本发明提供了一种具有碳纳米管的器件，其中纳米管（20）垂直生长在衬底表面上并且在叉指结构的指状物之间生长。然后将具有多个垂直碳纳米管的导电交叉指状物的完整阵列作为叉指装置集成，其中该装置基于边缘电场效应进行操作。间隔开的至少两个导电指状物（22）用作电容器的电极。多个碳纳米管（20）垂直形成在导电指状物的顶部或导电指状物之间。碳纳米管具有根据环境而变化的介电常数，因此影响测量的电容。示出了具有放置在沟槽中的纳米管的器件的不同实施例。碳纳米管叉指装置可用作农业，水产养殖，环境监测和生物医学领域的传感器。

2. 发明申请

WO2015170957A1 A SELF-CALIBRATED MINIATURIZED PRESSURE SENSOR 审中-公开
标题翻译：自校准微型压力传感器
公开(公告)号：WO2015170957A1
公开(公告)日：2015-11-12
申请号：PCT/MY2015/000022
申请日：2015-04-22
申请人： MIMOS BERHAD , TEH, Aun Shih , MOHSEN, Nabipoor
发明人： TEH, Aun Shih , MOHSEN, Nabipoor , LEE, Hing Wah , DANIEL, Bien Chia Sheng , SAAT, Shukri Bin Embong
IPC分类号： G01L9/00
CPC分类号： G01L27/002 , G01L9/0075
摘要： The present invention relates to pressure sensor and more particularly self-calibrated miniaturized pressure sensor designed for monitoring applications in automotive, industrial, medical and consumer products. One of the advantages of the present invention is able to detect self-calibration of the pressure sensor at both the initial state of the device or during operation. Another advantage of the present invention is that the self-calibrated miniaturized pressure sensor of the present invention enables the user to know the exact condition of the deformed diaphragm structure to ensure that the measured results are representative of the actual applied external pressure instead of the internal mechanical failure of the diaphragm structure. The present invention further provides a considerable reduction of materials with even greater efficiency and economically during operation.
摘要翻译：本发明涉及压力传感器，特别是自校准的小型化压力传感器，用于监测汽车，工业，医疗和消费产品中的应用。本发明的优点之一是能够在设备的初始状态或操作期间检测压力传感器的自校准。本发明的另一个优点是，本发明的自校准的小型压力传感器使得用户能够知道变形的隔膜结构的确切状况，以确保测量结果代表实际施加的外部压力而不是内部的隔膜结构的机械故障。本发明进一步提供了在操作期间具有更高效率和经济性的材料的显着减少。

3. 发明申请

WO2012134257A1 CARBON NANOTUBE-MODIFIED ELECTRODE 审中-公开
标题翻译：碳纳米管改性电极
公开(公告)号：WO2012134257A1
公开(公告)日：2012-10-04
申请号：PCT/MY2012/000032
申请日：2012-02-28
申请人： MIMOS BERHAD , TEH, Aun Shih , ALVA, Sagir , AHMAD, Mohd Rais
发明人： TEH, Aun Shih , ALVA, Sagir , AHMAD, Mohd Rais
IPC分类号： G01N27/327 , G01N33/00 , B82Y5/00 , B82Y15/00 , B82Y30/00
CPC分类号： B82Y5/00 , B82Y15/00 , B82Y30/00 , G01N27/3271 , G01N33/48707
摘要： A non-enzymatic biosensor based on selective voltammetry using functionalized hybrid solgel in its electrode is proposed. A preferred embodiment of the electrode comprises a conductor layer (3) which is disposed on a substrate (2), carbon nanotubes (CNT) (5) which are disposed on at least a portion of the conductor layer (3) such that the CNT's basal (5a) and distal ends (5b) are respectively disposed in between the conductor layer (3) and a CNT-ferrocene solgel composite (6) deposited onto the distal end (5b) of the CNT (5) within a dam structure (7). The conductor layer (3) may be silver, platinum, gold or carbon. Preferably, a catalyst support (4) is deposited on the substrate (2) and a liquid-form nickel catalyst is deposited on the catalyst support. The CNT-ferrocene solgel composite is made by vigorously mixing (by weight) CNT 10-35%, tetraethylorthosilicate 20-40%, methyltri-ethoxysilicon 20-40%, phenyltriethoxysilicon 20-40%; and ferrocene 0.1 to 10%. The mixture is sonicated for about 1 minute and then left to stand for about 20 hours.
摘要翻译：提出了一种基于在其电极中使用官能化混合溶胶凝胶的选择伏安法的非酶生物传感器。电极的优选实施例包括设置在基板（2）上的导体层（3），设置在导体层（3）的至少一部分上的碳纳米管（CNT）（5）），使得CNT 基底（5a）和远端（5b）分别设置在导体层（3）和沉积在坝结构内的CNT（5）的远端（5b）上的CNT-二茂铁溶胶凝胶复合材料（6）之间 7）。导体层（3）可以是银，铂，金或碳。优选地，催化剂载体（4）沉积在基材（2）上，并且液体形式的镍催化剂沉积在催化剂载体上。 CNT-二茂铁溶胶凝胶复合材料通过以下方式制备：（重量）CNT 10-35％，原硅酸四乙酯20-40％，甲基三乙氧基硅20-40％，苯基三乙氧基硅20-40％和二茂铁0.1〜10％。将混合物超声处理约1分钟，然后静置约20小时。

4. 发明申请

WO2013089556A1 A METHOD OF FORMING A DEVICE WITH NANOSTRUCTURES 审中-公开
标题翻译：一种形成具有纳米结构的器件的方法
公开(公告)号：WO2013089556A1
公开(公告)日：2013-06-20
申请号：PCT/MY2012/000186
申请日：2012-06-29
申请人： MIMOS BHD. , TEH, Aun Shih , BIEN, Daniel Chia Sheng , LEE, Hing Wah
发明人： TEH, Aun Shih , BIEN, Daniel Chia Sheng , LEE, Hing Wah
IPC分类号： H01L29/775 , H01L29/06 , H01L29/66 , H01L29/78 , H01L51/00 , H01L51/05 , H01L27/06 , H01L21/8234 , B82Y40/00 , B82Y10/00
CPC分类号： H01L29/0676 , B82Y10/00 , B82Y40/00 , H01L21/823487 , H01L27/0688 , H01L29/66439 , H01L29/775 , H01L29/7827 , H01L51/0048 , H01L51/057
摘要： The present invention generally relates to a method of forming nanotubes or nanowires device in an opening, more particularly the present invention relates to method of forming device structures using random nanotubes or nanowires formations. The device with nanostructrures as formed according to the method described in the present invention comprises first, a substrate (11). Then, at least a conductive layer (21), at least a dielectric layer (22), and at least a catalyst layer (23) deposited on the substrate (11) for structuring the device, wherein the catalyst layer (23) is sandwiched between conductive layers (21) of two devices of the same type. An opening (24) is etched through said layers for, after which a plurality of nanostructures (25) is formed, bridging conductive layers within one of the two devices.
摘要翻译：本发明一般涉及一种在开口中形成纳米管或纳米线装置的方法，更具体地说，本发明涉及使用无规纳米管或纳米线形成形成器件结构的方法。具有根据本发明所述方法形成的纳米结构的器件首先包括衬底（11）。然后，至少导电层（21），至少介电层（22）和沉积在基板（11）上的至少一催化剂层（23），用于构造该器件，其中催化剂层（23）夹在在相同类型的两个装置的导电层（21）之间。通过所述层蚀刻开口（24），之后形成多个纳米结构（25），在两个器件之一内桥接导电层。

5. 发明申请

WO2014088403A1 A RESISTIVE GAS SENSOR DEVICE 审中-公开
标题翻译：电阻式气体传感器装置
公开(公告)号：WO2014088403A1
公开(公告)日：2014-06-12
申请号：PCT/MY2013/000225
申请日：2013-12-03
申请人： MIMOS BERHAD
发明人： BIEN, Daniel Chia Sheng , TEH, Aun Shih , LEE, Hing Wah , LEE, Wai Yee , ABD WAHID, Khairul Anuar
IPC分类号： G01N27/12 , B82Y15/00
CPC分类号： G01N27/127 , B82Y15/00 , H01L21/02521 , H01L21/02603 , H01L21/02653
摘要： A resistive gas sensor device, wherein the gas sensor device operates based on changes in electrical resistivity using nanomaterials interconnectable by conductive bridge electrodes between contact electrodes.
摘要翻译：一种电阻式气体传感器装置，其中所述气体传感器装置基于使用可由接触电极之间的导电桥接电极互连的纳米材料的电阻率变化来操作。

6. 发明申请

WO2015080548A1 A PRESSURE SENSOR WITH MAGNETIC NANOPARTICLES 审中-公开
标题翻译：具有磁性纳米粒子的压力传感器
公开(公告)号：WO2015080548A1
公开(公告)日：2015-06-04
申请号：PCT/MY2014/000113
申请日：2014-05-26
申请人： MIMOS BERHAD
发明人： BIEN, Daniel Chia Seng , MOHSEN, Nabipoor , TEH, Aun Shih , LEE, Wai Yee , LEE, Hing Wah
IPC分类号： G01L9/00
CPC分类号： G01L9/0055
摘要： The present invention relates to a piezoresistive pressure sensor which detects applied pressure by measuring the change of electrical conductivity of the magnetic nanoparticles (3) in response to the application of mechanical stress onto the diaphragm (1). The pressure sensor comprises conductive electrodes (2) formed on the diaphragm (1) which is provided on a substrate (4). Magnetic nanoparticles (3) are deposited on the conductive electrodes (2) for electrically connecting the conductive electrodes (2) and changing electrical conductivity when stress is applied.
摘要翻译：压阻式压力传感器本发明涉及一种压阻式压力传感器，其通过测量磁性纳米颗粒（3）响应于在膜片（1）上施加机械应力的电导率的变化来检测施加的压力。压力传感器包括形成在隔膜（1）上的设置在基板（4）上的导电电极（2）。在导电电极（2）上沉积磁性纳米颗粒（3），用于电连接导电电极（2），并在施加应力时改变电导率。

7. 发明申请

WO2014007603A2 A METHOD OF FABRICATING A GAS SENSOR 审中-公开
标题翻译：一种气体传感器的制造方法
公开(公告)号：WO2014007603A2
公开(公告)日：2014-01-09
申请号：PCT/MY2013/000122
申请日：2013-07-02
申请人： MIMOS BERHAD
发明人： BIEN, Daniel Chia Sheng , TEH, Aun Shih , BUYONG, Muhamad Ramdzan , MOHD ZAIN, Azlina
CPC分类号： B82Y15/00 , F01N2560/02 , G01N27/123 , G01N27/127 , G01N27/128
摘要： A method of fabricating a gas sensor with a conductive sensing element on a microhotplate (102) is provided, the method includes the steps of fabricating a microhotplate (102) on silicon, fabricating a nanostructured sensor on the microhotplate (102) by growing of conductive nanotubes (110) or nanowires with metal catalyst and functionalising the conductive nanotubes or nanowires, wherein step the nanotubes (110) or nanowires are functionalised with metal oxides selected from a group consisting and not limited to tin oxide (SnO2), tungsten oxide (WOx), tantalum pent-oxide (Ta2O5), aluminium oxide (Al2O3) copper oxide (CuO), iron oxide (Fe2O3), titanium oxide (TiO), Neodymium Oxide (Nd2O3) and zinc oxide (ZnO).
摘要翻译：提供了一种在微电子板（102）上制造具有导电感测元件的气体传感器的方法，该方法包括以下步骤：在硅上制造微电子板（102），通过生长导电的方式在微电子板（102）上制造纳米结构传感器具有金属催化剂的纳米管（110）或纳米线，并且对导电纳米管或纳米线进行功能化，其中使用选自氧化锡（SnO 2），氧化钨（WO x）），五氧化二钽（Ta 2 O 5），氧化铝（Al 2 O 3）氧化铜（CuO），氧化铁（Fe 2 O 3），氧化钛（TiO），氧化钕（Nd 2 O 3）和氧化锌（ZnO）等。

8. 发明申请

WO2015080551A1 A METHOD OF ADHERING SENSING MEMBRANES IN A SENSING DEVICE 审中-公开
标题翻译：感测装置中感应膜的方法
公开(公告)号：WO2015080551A1
公开(公告)日：2015-06-04
申请号：PCT/MY2014/000120
申请日：2014-05-27
申请人： MIMOS BERHAD
发明人： TEH, Aun Shih , ANUAR, Khairul , BIEN, Daniel Chia Sheng , LEE, Wai Yee
IPC分类号： G01N27/414
CPC分类号： G01N27/4146
摘要： The present invention discloses a method for adhering a sensing membrane (10) to a sensing substrate (12), and more particularly, the method utilises nanoparticles (14) as an intermediary to physical modify or improve the surface area of the sensing substrate (12) before layering a sensing membrane (10) on the sensing substrate (12). The nanoparticles (14) are formed in pillar structures on sensing substrate (12) as physical protrusions that are capable of interrupting the flatness and uniformity of the sensing membrane (10) and the sensing substrate (12) that thereby anchors the adhesion of the sensing membranes (10) to the sensing substrate (12).
摘要翻译：本发明公开了一种用于将检测膜（10）粘附到感测基板（12）的方法，更具体地，该方法利用纳米颗粒（14）作为中间物质改进或改善感测基板（12）的表面积），然后在感测基板（12）上分层感测膜（10）。纳米颗粒（14）形成在感测基板（12）上的柱结构中，作为能够中断感测膜（10）和感测基板（12）的平坦度和均匀性的物理突起，从而锚固感测膜（10）到感测基板（12）。

9. 发明申请

WO2014088405A1 A METHOD OF PRODUCING NANOWIRES OF TWO DIFFERENT MATERIALS 审中-公开
标题翻译：一种生产两种不同材料的纳米管的方法
公开(公告)号：WO2014088405A1
公开(公告)日：2014-06-12
申请号：PCT/MY2013/000227
申请日：2013-12-03
申请人： MIMOS BERHAD
发明人： LEE, Wai Yee , BIEN, Daniel Chia Sheng , TEH, Aun Shih , ABD WAHID, Khairul Anuar
IPC分类号： H01L21/36 , H01L21/20 , H01L21/02
CPC分类号： H01L21/02532 , H01L21/02554 , H01L21/02603 , H01L21/0262 , H01L21/02639 , H01L21/02645 , H01L21/02653
摘要： A method of producing vertical nanowires using single catalyst material is provided, the method includes the steps of depositing an insulating oxide or nitride layer (101) on a substrate surface, depositing a gold catalyst layer (103) on top of the insulating oxide or nitride layer (101), annealing the substrate with the gold catalyst layer at temperature above 350°C, such that nanoparticles are formed of a diameter in the range of 1 to 100 nm, growing zinc oxide nanowires from the exposed gold catalyst nanoparticles by chemical vapour deposition (CVD) with diethylzinc as a precursor, and growing silicon nanowires from the remaining gold catalyst nanoparticles with silicon as precursor, such that vertical type zinc oxide nanowires are produced and laterally connected by silicon nanowires wherein the insulating oxide or nitride layer (101) is not required when the substrate is an insulative material.
摘要翻译：提供了使用单一催化剂材料制造垂直纳米线的方法，该方法包括以下步骤：在衬底表面上沉积绝缘氧化物或氮化物层（101），在绝缘氧化物或氮化物的顶部上沉积金催化剂层（103）层（101），在高于350℃的温度下用金催化剂层退火衬底，使得形成直径在1至100nm范围内的纳米颗粒，通过化学气相从暴露的金催化剂纳米颗粒生长氧化锌纳米线用二乙基锌作为前体沉积（CVD），并从剩余的金催化剂纳米颗粒中以硅为前体生长硅纳米线，使得垂直型氧化锌纳米线产生并通过硅纳米线横向连接，其中绝缘氧化物或氮化物层（101）当衬底是绝缘材料时不需要。

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