会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明申请
    • MULTICRYSTALLINE LASER-CRYSTALLIZED SILICON THIN LAYER SOLAR CELL DEPOSITED ON A GLASS SUBSTRATE
    • 玻璃基板上的多层激光晶化硅薄膜太阳能电池
    • WO0219437A3
    • 2002-06-27
    • PCT/EP0109571
    • 2001-08-20
    • INST PHYSIKALISCHE HOCHTECH EVFALK FRITZANDRAE GUDRUN
    • FALK FRITZANDRAE GUDRUN
    • H01L31/0224H01L31/0392H01L31/056H01L31/18H01L31/052
    • H01L31/03921H01L31/022466H01L31/056H01L31/1872Y02E10/52Y02P70/521
    • The invention relates to a multicrystalline laser-crystallized silicon thin layer solar cell deposited on a glass substrate (a), which is configured for illuminating from the substrate side, and to a production method for the cell. Said solar cell comprises a laser-crystallized multicrystalline silicon layer (b1, b2) whose lower layer region (b1), which is situated on the substrate (a) and provided as a nucleation layer and, at the same time, as a lower transparent electrode, is p-doped (alternatively, n-doped). The silicon layer's second layer region (b2), which faces away from the substrate is p-doped (alternatively, n-doped) less than the nucleation layer and serves as an absorber layer. The edge lengths of the crystallites in the multicrystalline layer (b1, b2) are longer than the layer is thick. The inventive solar cell also comprises a laser-crystallized, n-doped (alternatively, p-doped) silicon layer (c), which is located on the silicon layer (b1, b2) and which serves as an emitter layer, and comprises a back-reflecting contact layer (A1) that serves as an upper electrode on the emitter layer (c).
    • 的玻璃基板的(a),其被设计为从衬底侧照射,并且电池的制造方法,包括在多晶硅激光结晶硅薄膜太阳能电池:激光结晶的多晶硅层(B1,B2),所述底部(基板一 )B1卧,作为籽晶层,并在同一时间(如服务层区,或者n型掺杂)(p掺杂的,并且其第二从基材层区域(b2)的背向弱p掺杂(或备选地更弱n型掺杂)是作为下部透明电极) 籽晶层,并且用作吸收层,其中,在所述多晶硅层中的微晶的边缘长度(B1,B2)比该层的厚度大,在硅层上(B1,B2)卧激光结晶和n型掺杂(或可选地p型掺杂) 作为发射极层的硅层(c)和作为E上的上部电极的背反射接触层(Al) 中间层(c)。
    • 8. 发明申请
    • AFFINITY SENSOR FOR DETECTING SPECIFIC MOLECULAR BINDING EVENTS AND USE THEREOF
    • 用于检测特定分子结合事件的亲和力传感器及其用途
    • WO0039325A3
    • 2000-11-16
    • PCT/EP9910334
    • 1999-12-22
    • INST PHYSIKALISCHE HOCHTECH EVGENETRIX B V I OFRITZSCHE WOLFGANGCZAKI ANDREAKOEHLER JOHANN MICHAELOOSTING LOUISSCHUT FREDERIKTAN PARIS SOM TJWANWIEGAND ANTJE
    • FRITZSCHE WOLFGANGCZAKI ANDREAKOEHLER JOHANN MICHAELOOSTING LOUISSCHUT FREDERIKTAN PARIS SOM TJWANWIEGAND ANTJE
    • C12M1/00C12M1/34C12Q1/04C12Q1/68G01N1/28G01N27/02G01N27/04G01N33/483G01N33/543G01N33/566G01N37/00C12Q1/00G01N27/00G01N33/53
    • G01N33/5438B01J2219/00653
    • The invention relates to an affinity sensor for detecting specific molecular binding events, for use in the field of molecular biology, e.g., in medical diagnostics, especially in biosensor technology or in DNA microarray tests. The aim of the invention is to provide an affinity sensor of this type for rapidly, sensitively, specifically, economically and routinely detecting the presence of molecules, especially bioactive molecules, and to provide special applications for an affinity sensor of this type. To this end, the inventive affinity sensor consists of a support substrate (1) which is provided with at least two electrodes (2). Said electrodes are situated equidistantly from each other and cover an area (4) on both sides, at least this area (4) being provided for receiving immobilised specific binding partners (5) which are capable of coupling complementary corresponding binding partners (6) directly or with other specific binding molecules (7). The area (4) is established with a minimum width b, in such a way that at least one complementary corresponding binding partner (6) which is provided with an electroconductive particle (62) can be received in said area in such a way as to guarantee the possibility of a tunnel-type contact junction forming between the particle (62) and the electrodes (2) in each case. The affinity sensor is used for biomonitoring.
    • 本发明涉及一种用于检测特定分子结合事件的亲和力传感器,特别是在分子生物学领域,例如分子生物学领域。 医学诊断,特别是在生物传感器技术或DNA微阵列测试中。 本发明的目的是提供用于检测特定分子结合事件的亲和传感器,其检测在快速,灵敏,特异,资源少和例程,分子的存在,特别是生物活性分子,以及用于这样的亲和传感器提供特殊用途的,从而 实现了包括载体基材的亲和性传感器(1),其设有以等距间隔的电极(2),其检测两个布置成彼此至少两个端部部分(4),其中,至少该区域(4),用于接收固定 特异性结合配偶体(5)被提供,其能够联接互补相关结合伙伴(6)直接或通过另外的特定结合分子(7)和(4)具有最小宽度b的区域被设置为使得至少一个互补相关联b的的 ,上述范围是设置有导电粒子(62)indungspartner(6),以便容纳,所述微粒(62)和电极(2)之间的每个形成隧道接触过渡的可能性得到保证,并且该亲和力传感器 用于生物监测。