Adrijan Barić scite author profile

This paper presents a novel concept for the co-design of microwave heaters and microfluidic channels for sub-microliter volumes in continuous flow microfluidics. Based on the novel co-design concept, two types of heaters are presented, co-designed and manufactured in high-resistivity silicon-glass technology, resulting in a building block for consumable and mass-producible micro total analysis systems. Resonant and non-resonant co-planar waveguide transmission line heaters are investigated for heating of sub-micro-liter liquid volumes in a channel section at 25 GHz. The heating rates of 16 and 24 °C/s are obtained with power levels of 32 dBm for the through line and the open-ended line microwave heater, respectively. The heating uniformity of developed devices is evaluated with a Rhodamine B and deionized water mixture on a micrometer scale using the microwave-optical measurement setup. Measurement results showed a good agreement with simulations and demonstrated the potential of microwave heating for microfluidics.

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Characterizing the TEM Cell Electric and Magnetic Field Coupling to PCB Transmission Lines

Mandic

Gillon

Nauwelaers

et al. 2012

IEEE Trans. Electromagn. Compat.

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Modelling of Electromagnetic Immunity of Integrated Circuits by Artificial Neural Networks

Čeperić

Barić

2009

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Recurrent sparse support vector regression machines trained by active learning in the time-domain

Čeperić¹,

Gielen²,

Barić³

2012

Expert Systems with Applications

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Modeling of analog circuits by using support vector regression machines

Čeperić

Barić

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Area-efficient differential Gaussian circuit for dedicated hardware implementations of Gaussian function based machine learning algorithms

2013

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Adrijan Barić

A Strategy for Short-Term Load Forecasting by Support Vector Regression Machines

A symbolic regression-based modelling strategy of AC/DC rectifiers for RFID applications

Design and Comparison of Resonant and Non-Resonant Single-Layer Microwave Heaters for Continuous Flow Microfluidics in Silicon-Glass Technology

Characterizing the TEM Cell Electric and Magnetic Field Coupling to PCB Transmission Lines

Modelling of Electromagnetic Immunity of Integrated Circuits by Artificial Neural Networks

Recurrent sparse support vector regression machines trained by active learning in the time-domain

Modeling of analog circuits by using support vector regression machines

Area-efficient differential Gaussian circuit for dedicated hardware implementations of Gaussian function based machine learning algorithms

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