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A single chip electron spin resonance detector based on a single high electron mobility transistor

Related publications (45)

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Single-layer MoS₂

Branimir Radisavljevic

This thesis explores the electronic properties of one layered transition-metal dichalcogenide – single-layer MoS2, and demonstrates the first transistors and integrated circuits with characteristics that outperform graphene electronics in many aspects and ...

EPFL2013

FinFET integrated low-power circuits for enhanced sensing applications

Mihai Adrian Ionescu, Antonios Bazigos, Alexandru Rusu, Sara Rigante, Paolo Livi

This work presents different circuit architectures that combine sensing and signal readout functions. The basic building block is a Fin Field-Effect Transistor (Fin-FET) used as both sensor and metal gate transistor. Moreover, a hybrid partially gated FinF ...

Elsevier2013

AlInN-Based HEMTs for Large-Signal Operation at 40 GHz

Nicolas Grandjean, Jean-François Carlin, Lorenzo Lugani

We report the large-signal performance of high electron mobility transistors (HEMTs) fabricated on GaN- and AlN-capped AlInN/GaN epilayers grown on semi-insulating SiC substrates. Large-signal measurements at 10 and 40 GHz are presented with both gate and ...

Ieee-Inst Electrical Electronics Engineers Inc2013

Electron hopping at the Si(111):B-root 3 surface: Insight from local impurity spectroscopy

Cédric Tournier-Colletta

Boron vacancies at the Si( 111):B-root 3 surface are model systems in the comprehension of strongly correlated semiconductor surfaces. By using scanning tunneling spectroscopy, the origin of the single-vacancy electronic structure is addressed. It is shown ...

American Physical Society2013

From All-Si Nanowire TFETs Towards III-V TFETs

Hesham Ghoneim

Performance improvement by device scaling has been the prevailing method in the semiconductor industry over the past four decades. However, current silicon transistor technology is approaching a fundamental limit where scaling does not improve device perfo ...

EPFL2012

Beyond Scaling

Luca De Michielis

Over the recent decades, the balance between increasing the complexity of computer chips and simultaneously reducing cost per bit has been accommodated by down-scaling. While extremely successful in the past, this approach now faces grave limitations leadi ...

EPFL2012

Field-Effect Transistors Based on ZnO Nanowires

Daniel Dominik Kälblein

Semiconductor nanowires are an emerging class of materials with great potential for applications in future electronic devices. The small footprint and the large charge-carrier mobilities of nanowires make them potentially useful for applications with high- ...

EPFL2011

Self-Assembled Liquid-Gated Zinc Oxide Nanowire Transistors

Vivek Pachauri

This thesis aims at the site-specific realization of self-assembled field-effect transistors (FETs) based on semiconducting Zinc oxide NWs and their application towards chemical and bio-sensing in liquid medium. At first, a solution based growth method for ...

EPFL2011

In-IC Strategies for 3D Devices in Bulk Silicon

Matthieu Bopp

The increase of components density in advanced microelectronics is practically dictated by the device size and the achievable pitch between the devices. Scaling down dimensions of devices and progress in the circuit design allowed following Moore's law dur ...

EPFL2011

Nanoengineered Silicon: Technology and Applications

Sandro Carrara, Lucia Baldi Unser

Silicon has been, and continues to be, the material support of integrated circuit (IC) technology-the enabling tool of one of the most impressive technological, industrial and social revolution of mankind. Silicon (both in monocrystalline and polycrystalli ...

2011