Powering Connectivity: Revolutionizing RF Amplifiers for a Greener, Smarter Telecom World - Md Samiul Islam Borno

Villanova University
2025
RF Engineering
Power Amplifiers
Microwave Engineering
Analog Predistortion
signal processing
telecommunications
wireless communication
Satellite Communication
energy efficiency
Signal Distortion
electronics
Electrical Engineering
Smart Cities
Connectivity
Technology Innovation

This research improves RF and microwave power amplifiers by reducing signal distortion using analog predistortion. The approach enhances energy efficiency, signal quality, and reliability in wireless and satellite communication. By producing near-ideal signals, it supports future connectivity demands and contributes to greener, more efficient telecommunications infrastructure.

Clearing the Roads for Carbon Dioxide - Evangelos Kostarelos

Toronto Metropolitan University
Carbon Dioxide Electrolysis
clean energy
renewable energy
Gas Diffusion Layer
electrochemistry
carbon capture
Carbon Utilization
sustainable technology
climate change solutions
energy conversion
computational modelling
porous materials
microstructure
Transport Phenomena
fluid dynamics
Electrolyte Flooding
materials science
chemical engineering
Reaction Engineering
CO2 Conversion
industrial chemistry
Energy Systems
environmental engineering
green technology
Fuel Synthesis
Connectivity
porosity
Mass Transport
Electrochemical Devices
decarbonization

This research uses a traffic analogy to explain gas transport challenges in carbon dioxide electrolysis devices. Despite identical porosity, microstructural connectivity determines performance under flooding conditions. Computational modelling reveals how pathway structure affects efficiency, guiding design improvements that enhance CO₂ conversion into fuels and chemicals, supporting scalable and cleaner energy technologies.

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