Designing digital products in Sweden. Working for B2B and B2C both.

UX case study, UI design, UX Copywriting, Branding, Motion design and Package design

Figma, Adobe After effects, Adobe Illustrator, Adobe Indesign, Adobe Photoshop, Adobe Media Encoder, Canva, Notion, Miro, Squarespace, Wix, Webflow

Selected Work

Rewrite the Code: Bridging the Gap in Tech Careers for Women

My role: UX designer, UI design (Typography, Color palette, Placement) UX Copywriting.
Tools: Figma, Adobe illustrator

The Problem: Women in tech often feel stuck—whether it’s breaking into the industry, finding the right mentorship, or stepping into leadership. The lack of guidance and support can make career growth feel like an uphill battle.

Solution: We listened to real stories, uncovered real struggles, and designed a platform that truly supports women at every stage of their journey. Through personalized mentorship, career resources, and a supportive community, we created a space where women can grow, learn, and thrive.

Because no one should have to figure it out alone.


Empowering Recovery Through Personalized Physiotherapy

My role: Iterated the existing UX/UI design for Hyper Island project.
Tools: Figma

The Problem: Individuals suffering from chronic pain often struggle to find accessible, tailored physiotherapy solutions that fit their unique needs and schedules.

Solution: We envisioned a user-friendly app that guides users through personalized physiotherapy exercises. By mapping out the user journey, creating detailed storyboards, and designing intuitive user flows, we developed high-fidelity prototypes and a cohesive design system.


Redefining Bioprinting Software Usability

My role: UX research
Tools: Figma, Ms Exel, Ms Powerpoint

The Challenge: Users of CELLINK's bioprinting software, including scientists and testers, faced difficulties navigating the system, leading to repeated steps, errors, and frustration.

Our Approach: We introduced dynamic visual indicators—red lines to denote restricted actions and green lines for permissible ones—to guide users clearly. Additionally, we developed an Access Control List (ACL) matrix outlining allowable operations at each stage, simplifying decision-making and enhancing communication between developers and users.

By prioritizing user-centric design and clear communication, we transformed complex bioprinting workflows into intuitive experiences.