Michael, M., Kovbasyuk, L., Ritter, P., Reid, M. B., Friedrich, O., & Haug, M. (2022). Redox Balance Differentially Affects Biomechanics in Permeabilized Single Muscle Fibres—Active and Passive Force Assessments with the <i>Myorobot</i>. MDPI AG.
Chicago Style (17th ed.) CitationMichael, Mena, Larisa Kovbasyuk, Paul Ritter, Michael B. Reid, Oliver Friedrich, and Michael Haug. Redox Balance Differentially Affects Biomechanics in Permeabilized Single Muscle Fibres—Active and Passive Force Assessments with the <i>Myorobot</i>. MDPI AG, 2022.
MLA (9th ed.) CitationMichael, Mena, et al. Redox Balance Differentially Affects Biomechanics in Permeabilized Single Muscle Fibres—Active and Passive Force Assessments with the <i>Myorobot</i>. MDPI AG, 2022.
Warning: These citations may not always be 100% accurate.