Medical Device Applications

Precision Interconnects for the Next Generation of Medical Miniaturization.

High-Reliability Material Solutions for Next-Gen Bioelectronics

Ultra-fine wire diameters

Micro-wires in catheters and neurostim leads have extremely small diameters, creating massive hurdles for reliable electrical interconnections.

Our Solution: Our ZTACH® ACE enables sub-micron bonding on ultra-fine pitches, ensuring signal integrity in the smallest medical footprints.

Fatigue and flex reliability issues

Constant flexing of these bioelectronic micro-wires leads to fatigue and bond failure, compromising device longevity and patient safety.

Our Solution: Our flexible conductive inks and encapsulants absorb mechanical stress, providing unmatched durability for wearable and implantable tech.

Traditional methods = complex, failure-prone, high cost

Conventional techniques like laser welding, soldering, and epoxy bonding are complex, error-prone, and costly, leading to manufacturing challenges and delays.

Our Solution: Our low-temp, automated conductive epoxies replace complex bonding, reducing costs and accelerating your time-to-market.

ZTACH® ACE Benefit

Critical assembly processes for high-density, high-performance electronics

Absorbs misalignment, skew and surface gap of wires with respect to contact pads & substrates, preventing shorting
Pressure-less attach minimizes wire sweep, bending, breaking or displacement from intended position
Fine pitch down to 50 microns
Provides full encapsulation
Improves surface bond strength
Encasing wire & sheathing provides strain relief
No overheating of wire sheathing or metal pad peeling off substrate
Faster process & greater throughput

In a study using UV ZTACH® ACE for fire pitch wire and sensor attach for continuous glucose monitoring device, we validated the value proposition:

80% reduction in mfg. cycle time with UV ZTACH® ACE
40%-60% reduction in mfg. space required for UV or Thermal ZTACH® ACE solution
Increases number of wire or sensor to PCB connections by 2 to 4x within the same space with improved yield (component pitch down to 90 µm)
Reduction in manufacturing process steps by eliminating need for underfill
4x Increase in bond strength
=/>30% decrease in contact resistance

Empowering the Future of Life-Sustaining Medical & Bioelectronic Devices

Sunray Scientific is the critical link in the medical device supply chain, delivering high-performance conductive inks and encapsulants that thrive where traditional materials fail. We specialize in the miniaturization of bioelectronic devices, offering patented ZTACH® ACA solutions that enable flawless connectivity for neurostim leads, smart catheters, and wearable sensors.

By replacing high-heat soldering with our advanced, low-temperature conductive epoxies, we empower engineers to build smaller, more flexible, and more reliable life-saving technologies.

Partner with Sunray to accelerate your high-yield manufacturing and ensure uncompromising patient safety through superior material science.

Mastering Miniaturization: Advanced Interconnect Solutions for Bioelectronic Systems

As the demand for smaller, smarter medical devices scales, Sunray Scientific provides the essential material toolkit for bioelectronic system integration. We specialize in high-reliability conductive adhesives and moisture-resistant encapsulants that protect sensitive electronics in harsh physiological environments.

Our technology serves as the backbone for MedTech innovators developing next-gen closed-loop neuromodulation, cardiac rhythm management, and real-time diagnostic wearables.

By optimizing the interface between flexible substrates and micro-components, Sunray ensures your medical innovations achieve superior signal-to-noise ratios, long-term biocompatibility, and rapid transition from prototype to high-volume production.

Request Product Information & Technical Consultation

Connect with our technical team to discuss specifications, compatibility, and application requirements. Get expert guidance and tailored recommendations for your project.