Atomic Force Microscopy for Nanoscale Biophysics 1st Edition

Discover the definitive guide to nanoscale biological measurement: Atomic Force Microscopy for Nanoscale Biophysics, 1st Edition by Mi Li. This clear, authoritative volume pulls back the curtain on AFM principles and real-world applications, making complex instrumentation accessible to both newcomers and experienced practitioners.

Start with a concise yet thorough grounding in AFM theory—cantilevers, probe-sample interactions, and high-resolution imaging—then move into modern techniques such as force spectroscopy, single-molecule manipulation, and live-cell mapping. Mi Li bridges physics and biology with practical protocols, troubleshooting tips, and illustrative case studies that show how AFM reveals mechanics of proteins, membranes, DNA, and cellular architecture.

Ideal for graduate students, postdocs, and laboratory engineers, this first edition emphasizes reproducible experimentation and data interpretation. Readers gain confidence in sample preparation, choosing the right probes, minimizing artifacts, and converting raw signals into meaningful biophysical parameters. Whether you work in an academic lab, a biotech startup, or an industrial R&D setting, the book equips you to design experiments that answer biological questions at the nanoscale.

Written in an engaging, professional voice, the text is both a classroom companion and a bench-side reference. It’s globally relevant—used by researchers and instructors across North America, Europe, and Asia—yet grounded in practical advice you can apply today. Add Atomic Force Microscopy for Nanoscale Biophysics by Mi Li to your library to sharpen your AFM skills, accelerate discovery, and translate nanoscale insight into real-world breakthroughs. Order your copy now to elevate your nanoscale biophysics work.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.