000			02209cam a2200289zu 4500
001			88966130
003			FRCYB88966130
005			20250429184347.0
006			m o d
007			cr un
008			250429s2021 fr | o|||||0|0|||eng d
020			_a9780323898416
035			_aFRCYB88966130
040			_aFR-PaCSA _ben _c _erda
100	1		_aChen, Jian
245	0	1	_aBiosensors for Single-Cell Analysis _c['Chen, Jian', 'Lu, Yao']
264		1	_bAcademic Press _c2021
300			_a p.
336			_btxt _2rdacontent
337			_bc _2rdamdedia
338			_bc _2rdacarrier
650		0	_a
700	0		_aChen, Jian
700	0		_aLu, Yao
856	4	0	_2Cyberlibris _uhttps://international.scholarvox.com/netsen/book/88966130 _qtext/html _a
520			_aBiosensors for Single-Cell Analysis explores a wide range of biosensor technologies and their applications in single-cell characterization and analysis. Sections cover key biophysical and chemical single-cell properties that consider proteomic, metabolic, electrical, mechanical and optical properties. Each chapter features key definitions and case studies, providing detailed guidance for researchers who want to replicate covered solutions in their work. Tutorial sections, evaluations of the current state-of-the-field and future developments are also included. Microfluidic approaches to characterization, such as microfluidic impedance flow cytometry and microfluidic flow cytometry are considered alongside more conventional approaches, such as mass spectroscopy, fluorescent and mass flow cytometry. Additionally, key types of biosensors are covered, including atomic force microscopy, micropipette aspiration, optical tweezers, microfluidic hydrodynamic stretchers, microfluidic constriction channel and microfluidic optical stretchers. - Includes chapters focused on key single-cell properties, such as proteomic, metabolic and mechanical characterization - Features case studies that illustrate the application of biosensors for single-cell analysis - Considers microfluidic approaches for each single-cell property discussed - Explores future directions for single-cell analysis and biosensor technology
999			_c1331560 _d1331560