公开(公告)号：EP1612547B1

公开(公告)日：2009-06-24

申请号：EP04425488.6

申请日：2004-06-30

Applicant: STMicroelectronics S.r.l.

Inventor： Basco, Andrea ,  Volpe, Maria Viviana ,  Casuscelli, Valeria ,  Coffa, Salvatore

IPC: G01N27/12 ,  C09D11/00

CPC classification number: G01N27/127 ,  C09D11/30 ,  Y10T428/24917

公开(公告)号：EP1763037A1

公开(公告)日：2007-03-14

申请号：EP05108235.2

申请日：2005-09-08

Applicant: STMicroelectronics S.r.l.

Inventor： Basco, Andrea ,  Volpe, Maria Viviana ,  Bevilacqua, Maria Fortuna ,  Casuscelli, Valeria

IPC: G11C13/02

CPC classification number: G11C13/025 ,  B82Y10/00 ,  G11C2213/17 ,  G11C2213/53 ,  G11C2216/06 ,  H01L21/28273 ,  H01L29/42332 ,  H01L29/7881 ,  Y10S977/742 ,  Y10S977/841 ,  Y10S977/938

Abstract: A method for manufacturing a nanotube non-volatile memory cell ( 100 ) is proposed. The method includes the steps of: forming a source electrode ( 110 ) and a drain electrode ( 115 ), forming a nanotube ( 125 ) implementing a conduction channel between the source electrode and the drain electrode, forming an insulated floating gate ( 130 ) for storing electric charges by passivating conductive nanoparticles with passivation molecules and arranging a disposition of passivated conductive nanoparticles on the nanotube, the conductive nanoparticles being adapted to store the electric charges and being insulated by the passivation molecules from the nanotube, and forming a control gate ( 135,150;335 ) coupled with the channel.

Abstract translation: 一种用于制造碳纳米管的非易失性存储器单元（100）的方法，提出了 该方法包括以下步骤：形成一个形成纳米管（125）执行源电极和漏电极之间的导电沟道，形成在源电极（110）和漏极电极（115）绝缘的浮置栅极（130），用于 存储由负债婷导电纳米颗粒的电荷与钝化分子和在纳米管上设置钝化导电纳米粒子的配置，导电纳米颗粒是angepasst来存储电荷，并从所述纳米管被钝化分子被绝缘，并且形成控制栅极（135.150 ; 335）再加上信道。

公开(公告)号：EP1612547A1

公开(公告)日：2006-01-04

申请号：EP04425488.6

申请日：2004-06-30

Applicant: STMicroelectronics S.r.l.

Inventor： Basco, Andrea ,  Volpe, Maria Viviana ,  Casuscelli, Valeria ,  Coffa, Salvatore

IPC: G01N27/12 ,  C09D11/00

CPC classification number: G01N27/127 ,  C09D11/30 ,  Y10T428/24917

Abstract: Method for realising a sensor device (20) suitable for detecting the presence of chemical substances and comprising, as detection element, an active film (24) of metallic nanoparticles able to interact with the chemical substances to determine a variation of the global electric conductivity of the film (24). The method comprises the steps of preparing an ink comprising a solution of metallic nanoparticles, and depositing the obtained ink on a supporting substrate (26) by means of ink-jet printing so as to form the active film (24).

Abstract translation: 用于实现适合于检测化学物质的存在的传感器装置（20）的方法，并且包括能够与化学物质相互作用的金属纳米粒子的活性膜（24）作为检测元件，以确定全局电导率的变化 胶片（24）。 该方法包括以下步骤：制备包含金属纳米颗粒溶液的油墨，并通过喷墨印刷将获得的油墨沉积在支撑基材（26）上以形成活性膜（24）。