Resorcinol-formaldehyde based carbon nanospheres by electrospraying

Bulletin of Materials Science

Volumn 32, Issue 3, 2009, Pages 239-246

  Sharma, Chandra S ^a   Patil, Sandip ^a   Saurabh, Suman ^a   Sharma, Ashutosh ^a   Venkataraghavan, R ^b  

^a INDIAN INSTITUTE OF TECHNOLOGY KANPUR   (India)

^b Hindustan Lever Limited   (India)

Author keywords

Carbon nanospheres; Electrospraying; Hydrophilic; Pyrolysis; Sol gel

Indexed keywords

BIOMEMS; CARBON NANOSPHERE; CARBON NANOSPHERES; CARBON-BASED; DERIVED CARBONS; DISPERSE PARTICLES; ELECTROSPRAYING; HYDROPHILIC; HYDROPHILIC CARBONS; INERT ATMOSPHERES; LIQUID FLOW RATES; MEAN DIAMETER; MICRO ELECTRO MECHANICAL SYSTEM; MONO-DISPERSED; NANO-DROPLETS; OPTIMIZED PARAMETER; OVEN DRYING; POTENTIAL APPLICATIONS; PROCESS PARAMETERS; RESORCINOL FORMALDEHYDES; SI WAFER; SOL-GEL PROCESSING; WATER CONTACT ANGLE;

ADSORPTION; BIOSENSORS; COMPOSITE MICROMECHANICS; CONTACT ANGLE; CONTROLLED DRUG DELIVERY; DROP FORMATION; ELECTRIC POTENTIAL; FLOW RATE; FORMALDEHYDE; GELATION; GELS; HYDROPHILICITY; MEMS; MICROELECTROMECHANICAL DEVICES; NANOSPHERES; NEEDLES; PHENOLS; PYROLYSIS; SEMICONDUCTING SILICON COMPOUNDS; SILICON WAFERS; SOL-GEL PROCESS; SOL-GELS; SOLS; SPHERES; SURFACE PROPERTIES; SYNTHESIS (CHEMICAL);

CARBON FILMS;

EID: 70249146552     PISSN: 02504707     EISSN: None     Source Type: Journal    
DOI: 10.1007/s12034-009-0036-6     Document Type: Article

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