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Proposing a New Theory to Explain Glass Transition

Glass is fascinating because, even though it seems transparent and rigid, it is actually a complicated material.

Megan craigEcole polytechniqueSolutions for polymer analysis development industryMax planck institute in dresdenSolutions for polymer analysis developmentNew theoryExplain glass transitionPhysical reviewPolymer analysisDevelopment industry focusProfessor matthieu wyartMax planck instituteGrenoble alpesSystems biologyScaling descriptionDynamical heterogeneity

New Method Characterizes Polymer Chain Dynamics in Solution

Recent research conducted by the Chemistry Department at the University of Liverpool has achieved a significant milestone in the realm of polymer science.

Megan craigRoman boulatovRobert oneillStudy coSolutions for polymer analysis developmentChemistry departmentSolutions for polymer analysis development industryUniversity of liverpoolMethod characterizes polymer chain dynamicsImage creditNature chemistryPolymer analysisDevelopment industry focusProfessor roman boulatovRoberto neillStudy co author

FSU Researchers Develop Polymers with Two-Stage Thermal Behavior

The modern world is filled with synthetic polymers, long-chained molecules designed by scientists to fill all manner of applications.

Hoyong chungLaura thomsonsepBiswajit sahaSolutions for polymer analysis development industryCollege of engineeringSolutions for polymer analysis developmentPolymer analysisDevelopment industry focus

Creating a Safer and Cheaper Way of Making Acetone

Acetone is a critical chemical industry input that is used in the production of a broad range of products, including adhesives, antibiotics, electronic components, solvents and removers, inks, and vitamins.

Minas geraisMegan craigIvo freitas teixeiraVitor gabriel pastanaUniversity of so carlos ufscarSolutions for polymer analysis development industryMax planck institute of colloidsSolutions for polymer analysis developmentDepartment of chemistryUniversity of minas geraisNational industrial property instituteCheaper wayMaking acetoneVitor gabrielPolymer analysisDevelopment industry focus

Pioneering Beyond-Silicon Technology Via Residue-Free Field Effect Transistors

Beyond-silicon technology demands ultra-high-performance field-effect transistors (FETs). Transition metal dichalcogenides (TMDs) provide an ideal material platform, but the device performances such as contact resistance, on/off ratio, and mobility are often limited by the presence of interfacial residues caused by transfer procedures.

South koreaMyoung heeMegan craigSolutions for polymer analysis development industryInstitute for basic scienceSolutions for polymer analysis developmentIntegrated nanostructure physicsBasic sciencePolymer analysisDevelopment industry focus

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