Idaho National Laboratory 2 articles published in JoVE Engineering Atomic Force Microscopy Cantilever-Based Nanoindentation: Mechanical Property Measurements at the Nanoscale in Air and Fluid Ashton E. Enrriques1, Sean Howard2, Raju Timsina3, Nawal K. Khadka3, Amber N. Hoover4, Allison E. Ray5, Ling Ding4, Chioma Onwumelu6, Stephan Nordeng6, Laxman Mainali3,7, Gunes Uzer2, Paul H. Davis1,8 1Micron School of Materials Science & Engineering, Boise State University, 2Department of Mechanical & Biomedical Engineering, Boise State University, 3Department of Physics, Boise State University, 4Energy and Environmental Science and Technology, Idaho National Laboratory, 5Science and Technology, Idaho National Laboratory, 6Harold Hamm School of Geology & Geological Engineering, University of North Dakota, 7Biomolecular Sciences Graduate Program, Boise State University, 8Center for Advanced Energy Studies Quantifying the contact area and force applied by an atomic force microscope (AFM) probe tip to a sample surface enables nanoscale mechanical property determination. Best practices to implement AFM cantilever-based nanoindentation in air or fluid on soft and hard samples to measure elastic modulus or other nanomechanical properties are discussed. Environment Method to Produce Durable Pellets at Lower Energy Consumption Using High Moisture Corn Stover and a Corn Starch Binder in a Flat Die Pellet Mill Jaya Shankar Tumuluru1, Craig C. Conner1, Amber N. Hoover1 1Biofuels and Renewable Energy Technology Department, Idaho National Laboratory In this study, a protocol was developed to produce good quality pellets using a flat die pellet mill at reduced specific energy consumption testing high-moisture corn stover and a starch based binder. The results indicated that adding a corn starch binder improved the pellet durability, reduced percent fines and decreased specific energy consumption.