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Publications by Michael D. Brenner
Spider Silk Peptide Is a Compact, Linear Nanospring Ideal for Intracellular Tension Sensing
Nano Letters
Materials Science
Condensed Matter Physics
Mechanical Engineering
Nanoscience
Bioengineering
Nanotechnology
Chemistry
Related publications
Spider Silk Peptide Is a Compact, Linear Nanospring Ideal for Intracellular Tension Sensing
Engineered Hybrid Spider Silk Particles as Delivery System for Peptide Vaccines
Biomaterials
Mechanics of Materials
Biophysics
Biomaterials
Bioengineering
Composites
Nanoscience
Nanotechnology
Ceramics
Spider Silk as a Blueprint for Greener Materials: A Review
International Materials Reviews
Mechanics of Materials
Alloys
Materials Chemistry
Metals
Mechanical Engineering
Carbon Nanotubes on a Spider Silk Scaffold
Nature Communications
Astronomy
Genetics
Molecular Biology
Biochemistry
Chemistry
Physics
Antimicrobial Functionalized Genetically Engineered Spider Silk
Biomaterials
Mechanics of Materials
Biophysics
Biomaterials
Bioengineering
Composites
Nanoscience
Nanotechnology
Ceramics
Evidence for Antimicrobial Activity Associated With Common House Spider Silk
BMC Research Notes
Biochemistry
Medicine
Genetics
Molecular Biology
On the Ideal Structure of Positive, Eventually Compact Linear Operators on Banach Lattices
Pacific Journal of Mathematics
Mathematics
Secondary Structure Transition and Critical Stress for a Model of Spider Silk Assembly
Tailor-Made Spider-Eggcase-Silk Spheres for Efficient Lysosomal Drug Delivery
RSC Advances
Chemistry
Chemical Engineering
