This paper presents a novel technique for the fabrication of ultrahigh capacitance structures based on macroporous silicon. Electrochemical etching is used to create a 3-D template in silicon. These structures reach high specific capacitances and can be incorporated into integrated circuits. Very low series resistance is attained using a metal electrode. The fabrication technology uses standard UV lithography for silicon patterning, and a low-temperature electroplating process for the electrode formation. Devices have been fabricated with several insulator thicknesses to demonstrate the technology. The fabricated devices have a pore diameter of 3 μm arranged in a square lattice of 4-μm pitch, achieving capacitance density up to 110 nF/mm2. ...
This paper reviews the options of using Atomic Layer Deposition (ALD) in passive and heterogeneous i...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Today, many pulse power and industrial applications are limited by capacitor performance. While incr...
In this paper, high-capacity energy storage devices based on macroporous silicon are demonstrated. S...
International audienceThis paper presents the state of the art technologies currently used to produc...
A porous silicon-based capacitive structure with high specific capacitance is fabricated by three-di...
Continuous miniaturization of electronic devices for portable and wearable applications requires min...
Trench capacitors containing multiple metal-insulator-metal (MIM) layer stacks are realized by atom...
Continuous miniaturization of electronic devices for portable and wearable applications requires min...
This paper focuses on the scaling and optimization of metal-isolator-metal capacitors integrated in ...
The currently growing request for a continuous connectivity between people and things has increased ...
Last decades great effort has been put in the development of 3D capacitors. These capacitors are use...
This paper focuses on zirconia and TiN based metal-isolator-metal capacitors integrated in immediate...
Last decades great effort has been put in the development of 3D capacitors. These capacitors are use...
Macropore formation on p‐type Si in the dark has been studied on 6‐inch wafers in aqueous HF solutio...
This paper reviews the options of using Atomic Layer Deposition (ALD) in passive and heterogeneous i...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Today, many pulse power and industrial applications are limited by capacitor performance. While incr...
In this paper, high-capacity energy storage devices based on macroporous silicon are demonstrated. S...
International audienceThis paper presents the state of the art technologies currently used to produc...
A porous silicon-based capacitive structure with high specific capacitance is fabricated by three-di...
Continuous miniaturization of electronic devices for portable and wearable applications requires min...
Trench capacitors containing multiple metal-insulator-metal (MIM) layer stacks are realized by atom...
Continuous miniaturization of electronic devices for portable and wearable applications requires min...
This paper focuses on the scaling and optimization of metal-isolator-metal capacitors integrated in ...
The currently growing request for a continuous connectivity between people and things has increased ...
Last decades great effort has been put in the development of 3D capacitors. These capacitors are use...
This paper focuses on zirconia and TiN based metal-isolator-metal capacitors integrated in immediate...
Last decades great effort has been put in the development of 3D capacitors. These capacitors are use...
Macropore formation on p‐type Si in the dark has been studied on 6‐inch wafers in aqueous HF solutio...
This paper reviews the options of using Atomic Layer Deposition (ALD) in passive and heterogeneous i...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Today, many pulse power and industrial applications are limited by capacitor performance. While incr...