S. Sinha, R. Rathore, A. Sharma, R. Mukhiya, Ranjan Sharma, V. Khanna
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引用次数: 3
摘要
离子敏感场效应晶体管(ISFET)是一种流行的电位化学/生化传感器。然而,由于电荷屏蔽,器件的灵敏度明显降低。电解质-绝缘体界面上的电荷与导电通道中反射的电荷呈对数依赖关系,这将理想的传统ISFET的灵敏度限制在59.2 mV/pH,也称为纳恩斯特极限。在绝缘体上硅(SOI)技术中引入双栅极效应,提高了ISFET的灵敏度。MOSFET测试结构通常与isfet一起在同一晶片上制造。在本文中,我们通过在SILVACO™TCAD工具中模拟近完全耗尽(NFD) SOI MOSFET的行为,并通过制造的NFDSOI MOSFET的测试结果验证了其双栅极操作。可以观察到,晶体管的阈值电压和漏极电流可以通过对后门施加电势来控制。
Simulation, fabrication and characterization of Dual-Gate MOSFET test structures
Ion-Sensitive Field-Effect Transistor (ISFET) is a popular potentiometric chemical/bio-chemical sensor. However, due to charge screening, the sensitivity of the device is significantly reduced. A logarithmic dependence is exhibited between the charge present at the electrolyte-insulator interface and the charge mirrored in the conducting channel, which limits the sensitivity of an ideal conventional ISFET to 59.2 mV/pH, also known as the Nernstian limit. Using Dual-Gate effect in Silicon-on-Insulator (SOI) technology improves the sensitivity of ISFET. MOSFET test structures are generally fabricated along with ISFETs on the same wafer. In this paper, we have demonstrated the dual gate operation of a Near-Fully Depleted (NFD) SOI MOSFET, by simulating its behavior in SILVACO™ TCAD tool and validating it with the test results of fabricated NFDSOI MOSFET. It is observed that the threshold voltage and drain current of the transistor can be manipulated by applying a potential to the back gate.
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