This technology is a smart drug-release system that automatically delivers medicine when the conditions inside the body change. When factors like pH or ion concentration shift, the system works like a gate that opens and closes, allowing the drug to be released or stopped.

It uses metal ions such as Mg²⁺ or Zn²⁺ to hold the drug in place. When the surrounding environment changes, these bonds loosen naturally, so the drug can be released gradually only when needed.

It is a versatile platform that can be applied to delicate therapeutics such as proteins, hormones, and peptides.

This technology is a wearable, dynamic drug-delivery system that releases medication in pulse form in response to subtle mechanical stimuli from the body. It detects micro-movements such as pressure changes, muscle contractions, or blood vessel vibrations, and releases small doses of drugs accordingly.

By synchronizing drug delivery with physical activity or physiological signals, it improves therapeutic efficiency and can be integrated into medical wearables for real-time, responsive treatment.

This technology is an electrochemically responsive sustained-release matrix that controls drug-release rates based on electrical stimuli such as current or ion movement. Conductive polymers and ion-binding structures hold the drug in place, and electrical signals weaken these interactions to trigger controlled release.

The system enables real-time, precise modulation of drug delivery and can be integrated with medical devices such as electroceuticals and smart therapeutic patches.