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Scalable Two-Dimensional Materials Advance Future-Gen Electronics

Four-dimensional physics in two dimensions

Study Shines New Light on How Salmonella "Die" at Low Temperatures

3-D printing improves cell adhesion and strength of PDMS polymer

New desalination method offers low-energy alternative to purify salty water

Research News

Jan 12 2018

For the first time, physicists have built a two-dimensional experimental system that allows them to study the physical properties of materials that were theorized to exist only in four-dimensional space.

Jan 12 2018

A team of researchers from Penn State placed first at the Materials Research Society (MRS) iMatSci Innovators competition at the MRS 2017 Fall meeting in Boston. Their technology, called “LESS,” reduces the amount of flush volume required to remove solids and residue from toilet bowls by 90 percent and could improve hygiene and save significant water resources in water-scarce environments.

Jan 2 2018

Providing safer drinking water to those in need may be a little easier. According to Penn State researchers, a new desalination technique is able to remove salt from water using less energy than previous methods.

NEW Seed Grant Opportunity

Convergence of Materials and Life Sciences – NIH and Imaging Focused Seed Grants 2018-2019:  Learn more about it...

Upcoming 2018 Events

January
30
2DCC-MIP Webinar

Modeling 2D Growth Outcomes

May
9-11
Graphene and Beyond 2018

Enhance synergy and build toward a strong community and future in 2D crystal science and technology.

August
13 - 24
The Penn State Microscopy School

The Penn State Microscopy School: Electron Microscopy Methods at the Convergence of Materials and Life Sciences

Every Week 10 a.m.
Tuesday
The Millennium Cafe

An opportunity to spend time "outside the box" developing new ideas and leveraging the collective expertise.

The Materials Research Institute

A Culture of Interdisciplinary Research

Penn State’s investment in its interdisciplinary research institutes, including the Materials Research Institute (MRI), has created a culture of strong collaborations across disciplines. At Penn State, many researchers have the support of both their academic departments and the university-wide institutes, such as MRI. By encouraging crosscutting research, MRI and its sister institutes open up traditional silos of knowledge to the stimulus of other viewpoints and new ideas. This mingling of disciplines, often called “convergence,” brings together the physical and life sciences with engineering and computation to solve the most complex problems facing society today and in the future.

Millennium Cafe

Understanding Emerging Contaminants in the Environment: From Fear to Empowerment

Many of the products we use in our everyday lives contain chemicals that, while deemed safe for human use, are known to disrupt the endocrine systems of aquatic species such as fish and amphibians. As these chemicals are increasingly found in drinking water sources, there is a pressing need to understand both environmental and human health impacts. Our research group seeks to understand the sources of these chemicals, their transport through the environment, and the effectiveness of water treatment technologies to remove them from wastewater and drinking water. In an effort to engage the general public on this topic of emerging concern, we developed an “Emerging Contaminants Footprint Tool” to help empower people to reduce their footprint by making informed choices that can improve water quality for humans and aquatic ecosystems.

Artificial Mineralization Vesicles: A New Platform for Biomimetic Mineral Synthesis

Nature creates beautifully crafted functional inorganic structures to supplement biological functions, from structural support to enhanced optics. These tissues known as biominerals have garnered the attention of biologists and materials scientists alike, the latter aiming to emulate similar properties into their own synthetic materials. To that end, we have developed a novel artificial mineralization vesicle capable of directed synthesis of organic-inorganic composite materials.

Four Lab Solution: Theory, Synthesis, Fabrication, Characterization

NSF MIP Materials Innovation Platform
2D Crystal Consortium (2DCC)

The 2DCC-MIP is focused on advancing the synthesis of 2D materials within the context of a national user facility.

The Materials Characterization Lab
Materials Characterization Lab

The Materials Characterization Lab (MCL) is a fully-staffed, open access, analytical research facility charged with enabling research and educating the next generation of highly qualified researchers.

The Materials Computation Center
Materials Computation Center

Our primary goal is to support internal and external users working in computer-based simulations of materials across the various length and time scales.

The Nanofabrication Lab
Nanofabrication Lab

Our staff scientists and engineers will enable users to transition fundamental research in nanomaterials to innovation-driven multicomponent integrated devices and systems.

New Capabilities & Emerging Materials Research

High-res Image from the TEM
In Situ Characterization

Flurry of innovations in new components that can be placed inside the TEM

Materials-Related Institutes, Facilities, & Centers

2DLM

ICAT

ATOMIC

CIMP-3D

Energy Institute

HESE

CNS MRSEC

PSIEE

Institute for Cyberscience

CDP

Industry and University Collaboration

Every organization has different priorities and resources. Directors of the MRI facilities recognizes this and help your company leverage our labs in various ways.
Find out more...