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    • 1. 发明申请
    • SEMICONDUCTOR MATERIALS AND METHODS OF PRODUCING THEM
    • WO2006123116A3
    • 2006-11-23
    • PCT/GB2006/001768
    • 2006-05-12
    • ATMOS (1998) LTDBOARDMAN, Jeffery
    • BOARDMAN, Jeffery
    • C23C8/10C23C4/10
    • A method of producing particles containing metal oxide for use in semiconductor devices includes the steps of heating metal-containing particles in a flame produced by a mixture of oxygen and a fuel component comprising at least one combustible gas selected from hydrogen and hydrocarbons, the oxygen being present in the mixture in a proportion of not less than 10 mole% below, and not more than 60 mole% above, a stoichiometric amount relative to the fuel component, so as to oxidize metal in at least an outer shell of the particles; cooling the oxidized particles by feeding them into a liquid or sublimable solid medium; collecting the cooled oxidized particles; and providing a distance between entry of the particles into the flame and collection of the particles of at least 300mm. In this manner, such particles may be oxidized so as to provide a shell of metal oxide material which leaving unoxidized a core of metal. A semiconductive layer of such particles on a substrate may be formed by feeding, to a hot zone, such preoxidized metal-containing particles; heating the metal-containing particles in the hot zone to render the particles at least partially molten; and depositing the particles in the at least partially molten state onto the substrate. The above oxidation process may be employed to provide metal oxide particles in which different respective metals having different respective valencies are present in different respective molar proportions. The valencies and molar proportions may be selected so as to provide n- or p-type semiconductor layers.
    • 2. 发明申请
    • A SELF-REGULATING ELECTRICAL RESISTANCE HEATING ELEMENT
    • 一种自我调节的电阻加热元件
    • WO2008081167A3
    • 2008-11-13
    • PCT/GB2007004999
    • 2007-12-21
    • 2D HEAT LTDBOARDMAN JEFFERY
    • BOARDMAN JEFFERY
    • H05B3/14H01C7/02H01C7/04
    • H05B3/141H01C7/021H01C7/025H01C7/041H01C7/046H01C7/06H05B2203/019H05B2203/02Y10T29/49082
    • The present invention relates to a self-regulating electrical resistance heating element, to an appliance containing same, and to processes for their manufacture. The self regulating electrical resistance heating element (10) comprises a substrate (12) comprising an electrically conductive coating (12a) which serves as a first electrical contact (18) on one side of the composite metal oxide layers. Disposed on said electrically conductive layer (12a) is a first metal oxide (14) which has a positive temperature coefficient of resistance. Overlaying the first metal oxide layer, and in electrical series thereto, is a second metal oxide layer (16) having a negative temperature coefficient of resistance and overlaying this layer is a second electrical contact (20). The second metal oxide layer (16) having a negative temperature coefficient of resistance is applied to the element in a manner which ensures it's resistive characteristics are not altered.
    • 本发明涉及一种自调节电阻加热元件,包含其的器具及其制造方法。 自调节电阻加热元件(10)包括衬底(12),该衬底包括用作复合金属氧化物层的一侧上的第一电触点(18)的导电涂层(12a)。 设置在所述导电层(12a)上的是具有正温度系数电阻的第一金属氧化物(14)。 覆盖第一金属氧化物层并与其电串联的是具有负电阻温度系数的第二金属氧化物层(16),并且覆盖该层是第二电触点(20)。 具有负电阻温度系数的第二金属氧化物层(16)以确保其电阻特性不被改变的方式施加到该元件。
    • 3. 发明申请
    • SEMICONDUCTOR MATERIALS AND METHODS OF PRODUCING THEM
    • 半导体材料及其生产方法
    • WO2006123116A2
    • 2006-11-23
    • PCT/GB2006001768
    • 2006-05-12
    • ATMOS 1998 LTDBOARDMAN JEFFERY
    • BOARDMAN JEFFERY
    • C23C8/10C23C4/10
    • C23C8/10C23C4/11
    • A method of producing particles containing metal oxide for use in semiconductor devices includes the steps of heating metal-containing particles in a flame produced by a mixture of oxygen and a fuel component comprising at least one combustible gas selected from hydrogen and hydrocarbons, the oxygen being present in the mixture in a proportion of not less than 10 mole% below, and not more than 60 mole% above, a stoichiometric amount relative to the fuel component, so as to oxidize metal in at least an outer shell of the particles; cooling the oxidized particles by feeding them into a liquid or sublimable solid medium; collecting the cooled oxidized particles; and providing a distance between entry of the particles into the flame and collection of the particles of at least 300mm. In this manner, such particles may be oxidized so as to provide a shell of metal oxide material which leaving unoxidized a core of metal. A semiconductive layer of such particles on a substrate may be formed by feeding, to a hot zone, such preoxidized metal-containing particles; heating the metal-containing particles in the hot zone to render the particles at least partially molten; and depositing the particles in the at least partially molten state onto the substrate. The above oxidation process may be employed to provide metal oxide particles in which different respective metals having different respective valencies are present in different respective molar proportions. The valencies and molar proportions may be selected so as to provide n- or p-type semiconductor layers.
    • 一种生产用于半导体器件的含有金属氧化物的颗粒的方法包括以下步骤:在由氧和包含至少一种选自氢和烃的可燃气体的燃料组分的混合物产生的火焰中加热含金属颗粒,氧为 以相对于燃料成分的化学计量量以上且不高于60摩尔%的比例存在于混合物中,以至少在外壳中氧化金属; 通过将氧化的颗粒喂入液体或可升华的固体介质中来冷却氧化颗粒; 收集冷却的氧化颗粒; 并且提供颗粒进入火焰之间的距离并且收集至少300mm的颗粒。 以这种方式,这样的颗粒可以被氧化以提供金属氧化物材料的外壳,其留下未氧化的金属芯。 可以在基材上形成这样的颗粒的半导体层,通过向热区提供这种预氧化的含金属颗粒; 加热热区中的含金属颗粒使颗粒至少部分熔融; 以及将所述至少部分熔融状态的所述颗粒沉积到所述基底上。 可以使用上述氧化方法来提供金属氧化物颗粒,其中以不同的摩尔比例存在不同的各自价值的不同的金属。 可以选择价态和摩尔比例以提供n型或p型半导体层。
    • 4. 发明申请
    • ELECTRICAL HEATING ELEMENTS
    • 电加热元件
    • WO1996042184A1
    • 1996-12-27
    • PCT/GB1996001351
    • 1996-06-07
    • DEEMAN PRODUCT DEVELOPMENT LIMITEDBOARDMAN, Jeffery
    • DEEMAN PRODUCT DEVELOPMENT LIMITED
    • H05B03/26
    • H05B3/82C23C4/02C23C4/10H05B3/262H05B2203/021
    • An electrically resistive heating element for liquids and a method of fabricating same. The heating element comprises a substrate (10) formed of an electrically insulating material or formed of an electrically conductive material provided with an electrically insulating coating, whereby in both cases the substrate (10) presents an electrically non-conductive surface on at least one side. First (14a) and second (14b) laterally spaced contact areas are disposed over the electrically non-conductive surface and a thermally sprayed resistive oxide layer (16) is applied to the electrically non-conductive surface and disposed over or under parts of the contact areas (14a, 14b) to enable an electric current to be passed through the resistive oxide layer (16) via these first and second contact areas.
    • 一种用于液体的电阻加热元件及其制造方法。 加热元件包括由电绝缘材料形成或由设置有电绝缘涂层的导电材料形成的衬底(10),由此在两种情况下,衬底(10)在至少一个侧面上呈现非导电表面 。 第一(14a)和第二(14b)横向间隔开的接触区域设置在非导电表面上,并且热喷涂的电阻氧化物层(16)被施加到非导电表面并且设置在接触部分之上或之下 区域(14a,14b),以使电流能够经由这些第一和第二接触区域通过电阻氧化物层(16)。
    • 5. 发明申请
    • A SELF-REGULATING ELECTRICAL RESISTANCE HEATING ELEMENT
    • 自调节电阻加热元件
    • WO2009150454A1
    • 2009-12-17
    • PCT/GB2009/050643
    • 2009-06-09
    • 2D HEAT LIMITEDBOARDMAN, Jeffery
    • BOARDMAN, Jeffery
    • H05B3/14H05B3/16
    • H01C7/025H01C7/023H01C7/045H01C7/046H05B3/14H05B3/141H05B3/16H05B2203/019H05B2203/02Y10T29/49083
    • The present invention relates to a self-regulating electrical resistance heating element, to an appliance containing same, and to processes for their manufacture. The self regulating electrical resistance heating element comprises · a non-electrically conductive substrate (12); · a first metal oxide (14) having a positive or negative temperature coefficient of resistance below a predetermined operating temperature deposited on said substrate; · a second metal oxide (16) having a temperature coefficient of resistance opposite to that of said first metal oxide deposited on said substrate adjacent said first metal oxide; and · first and second electrical contacts (18; 20) disposed such that a current can pass between the contacts through the first and second metal oxides. By placing the respective metal oxides, in e.g. discreet lines, tracks or areas, adjacent one another, with a contact there between or with a sufficient overlap to ensure a good electrical contact it is possible to provide self-regulating electrical resistance heating elements for applications where a large area (compared to 20 e.g. a kettle element) is needed, such as might be the case in a washing machine, dishwasher or tumble dryer.
    • 本发明涉及一种自调节电阻加热元件,一种包含该自调节电阻加热元件及其制造方法。 所述自调节电阻加热元件包括:非导电基底(12); ·第一金属氧化物(14),其具有低于沉积在所述衬底上的预定操作温度的正或负温度系数; ·第二金属氧化物(16),其具有与沉积在与所述第一金属氧化物相邻的所述衬底上的所述第一金属氧化物的电阻的温度系数相反的温度系数; 以及·第一和第二电触头(18; 20),其布置成使得电流可以在触点之间穿过第一和第二金属氧化物。 通过将相应的金属氧化物,例如, 离散的线,轨道或区域彼此相邻,其间具有足够重叠的接触,以确保良好的电接触,可以为大面积(相比于20例)的应用提供自调节电阻加热元件 一个水壶元素),例如在洗衣机,洗碗机或滚筒烘干机中可能是这样。
    • 6. 发明申请
    • A SELF-REGULATING ELECTRICAL RESISTANCE HEATING ELEMENT
    • 自调节电阻加热元件
    • WO2008081167A2
    • 2008-07-10
    • PCT/GB2007/004999
    • 2007-12-21
    • 2D HEAT LIMITEDBOARDMAN, Jeffery
    • BOARDMAN, Jeffery
    • H05B3/14H01C7/02H01C7/04
    • H05B3/141H01C7/021H01C7/025H01C7/041H01C7/046H01C7/06H05B2203/019H05B2203/02Y10T29/49082
    • The present invention relates to a self-regulating electrical resistance heating element, to an appliance containing same, and to processes for their manufacture. The self regulating electrical resistance heating element (10) comprises a substrate (12) comprising an electrically conductive coating (12a) which serves as a first electrical contact (18) on one side of the composite metal oxide layers. Disposed on said electrically conductive layer (12a) is a first metal oxide (14) which has a positive temperature coefficient of resistance. Overlaying the first metal oxide layer, and in electrical series thereto, is a second metal oxide layer (16) having a negative temperature coefficient of resistance and overlaying this layer is a second electrical contact (20). The second metal oxide layer (16) having a negative temperature coefficient of resistance is applied to the element in a manner which ensures it's resistive characteristics are not altered.
    • 本发明涉及一种自调节电阻加热元件,一种包含该自调节电阻加热元件及其制造方法。 自调节电阻加热元件(10)包括基底(12),该基底(12)包括用作在复合金属氧化物层的一侧上的第一电接触(18)的导电涂层(12a)。 设置在所述导电层(12a)上的是具有正温度系数电阻的第一金属氧化物(14)。 覆盖第一金属氧化物层并且与其电连接的是具有负的温度系数电阻的第二金属氧化物层(16),并且覆盖该层是第二电接触(20)。 将具有负温度系数的第二金属氧化物层(16)以确保其电阻特性不改变的方式施加到元件。
    • 8. 发明申请
    • A METHOD OF PRODUCING DEVICES WHICH GENERATE ELECTRICAL ENERGY
    • 生产电能的装置的制造方法
    • WO1993026052A1
    • 1993-12-23
    • PCT/GB1993001261
    • 1993-06-14
    • BOARDMAN, Jeffery
    • H01L31/18
    • H01L31/115G21H1/06G21Y2002/206G21Y2004/30G21Y2004/40H01L31/18
    • A method of constructing a photovoltaic diode capable of generating electrical energy from exposure to radiation, the method comprising the steps of: (a) preparing dry metal powders of non symmetrical shaped particles, having sizes in the range of 1 to 145 microns; (b) preparing the surface of a supporting substrate such that the surface is substantially chemically clean and electrically conductive; (c) cooling the surface of the supporting substrate to a temperature within the range -200 to -20 DEG C; and (d) heating the dry metal powders to a temperature at which the particles thereof become partially molten, thus at least partially oxidising the metal, depositing the molten oxides onto said surface of the supporting substrate to form a laminate of oxide matrices having alternate layers of n type and p type characteristics and depositing an electrically conducting layer onto the oxide laminate.
    • 一种构建能够从暴露于辐射中产生电能的光伏二极管的方法,所述方法包括以下步骤:(a)制备尺寸在1至145微米范围内的非对称形状的颗粒的干金属粉末; (b)制备支撑基底的表面,使得表面基本上化学清洁并导电; (c)将支撑基材的表面冷却至-200至-20℃的温度; 和(d)将干燥的金属粉末加热到其颗粒部分熔融的温度,从而至少部分地氧化金属,将熔融的氧化物沉积到支撑衬底的所述表面上以形成具有交替层的氧化物基体的层压体 的n型和p型特性,并将导电层沉积到氧化物层压板上。