Designed and iterated on customer-facing applications, implemented and adopted by over five national and regional banks, resulting in multi-million dollar client partnerships spanning the USA, Australia, and Canada.
Led the design of the framework of a user-friendly self-service tool, empowering non-technical users to customize the Amount SaaS platform for their unique needs. This transformation reduced the reliance on technical resources, paving the way for our company's evolution from fintech to SaaS, and expanded our market presence.
Collaborated closely with developers to establish and sustain an efficient design system, which was tailored to seamlessly cater to clients' diverse banking requirements and enabled swift customization to align with their unique branding preferences.
Designed two engaging educational games aimed at enhancing college students' comprehension of optics and photonics concepts. Leveraged desktop games and immersive VR experiences to bring complex topics to life, offering an alternative to in-person factory experiences.
Ran over 20 user tests, identified usability problems, collected qualitative and quantitative data, and determined the participant's satisfaction with the product.
Participated in designing a SaaS application that serves patients, medical workers, and the company.
Led the communication center's design, including SMS, phone calls, video calls, and email service within the platform.
Worked with the design team and strategists to formulate and translate client needs into online and offline media.
Assisted in the creation of Endeavor Content's website.
Designed accessible, user-centered websites and multimedia pieces with sophisticated production values and intuitive navigation to maximize user engagement and cement powerful brand identities.
Developed and produced multimedia pieces for NYU online courses on edX websites and other online learning platforms.
Undergraduate Research Assistant | Designed and conducted experiments focused on multisensory integration and cross-modal processing at Okajima Lab.