Unlocking The Power of Partnerships for 

Academia

What’s Possible?

Advance the influence and integration of your academic mission by partnering across sectors to co-create solutions, inform policy and accelerate student and societal outcomes.

The Challenge

Despite their broad missions, universities often remain siloed, limiting opportunities to align research, teaching and public engagement with the needs and priorities of communities, industries and policy systems.

Invite Us for a Partnership Talk

Real conversations on what it takes to partner with purpose.

Complementary 1-hour presentation on topics like:

  • Beyond the MOU: Build and implement research partnerships that are designed for impact.

  • Engaging Stakeholders with Purpose: Collaborate early and meaningfully to inform research questions and real-world relevance.

  • Partner-Ready Institutions: Strengthen internal capacity and unlock new funding through cross-sector collaboration.

  • Systems Thinking for Research Impact: Connect academic work to policy, practice, and societal outcomes.

What’s Possible for Academia

Purposeful Stakeholder Engagement  

This model offers structured spaces for surfacing real-world challenges, identifying where research is most needed and aligning on shared priorities. For academic institutions, these stakeholder convenings deepen relevance, inform research design and build lasting connections that support translation and impact.

  • This engagement applied a structured systems method—Comprehensive Success Factor Analysis (CSFA)—to help USAID, academic, NGO and local government partners in Colombia identify root challenges across youth development, rural livelihoods, and migration.

    This method combined pre-conference surveys, expert scoping groups, and in-workshop mapping to generate “issue trees” and narrow sector challenges to actionable research focus areas.

    By combining researcher-practitioner engagement with systems gap analysis, the model enabled USAID and its partners to align future research funding with high-impact, field-defined needs. 

Bridging Research with Practice/ Policy 

This model offers structured pathways for aligning academic inquiry with the priorities of practitioners, policymakers and communities. These collaborations enhance the relevance and use of research, enabling faculty and institutions to extend the reach and real-world impact of their work.

  • Under the USAID funded LASER PULSE program at Purdue, we developed the Embedded Research Translation (ERT) model to structure collaboration between researchers and development practitioners from project inception to implementation.

    The model includes a four-stage process: stakeholder co-definition of problems, joint development of research scope and methods, periodic evidence-use consultations, and co-creation of policy and practice products.

    This model was used across 50 applied research projects globally and has been adopted by USAID and academic institutions as a framework for designing research that informs real-world decisions. 

Tech Transfer, Innovation, Commercialization 

These models align academic research with market pathways and development needs, while strengthening institutional capacity to manage innovation pipelines. These partnerships help universities translate discoveries into real-world solutions and support sustainable models for research-driven impact.

  • At Purdue University, we contributed to the design of interdisciplinary tech transfer frameworks that connected engineering research with global development outcomes.

    Working within the Shah Global Innovation Lab in the College of Engineering, we supported models that engaged faculty, commercialization experts, and development actors in co-assessing technologies for market viability—considering both low-resource community needs and private sector scaling potential.

    This approach informed licensing, open-access dissemination, and entrepreneurial spinouts for technologies targeting clean water, sustainable energy, health, education, and agricultural innovation.