Interfacial liquid-state surface-enhanced Raman spectroscopy

Abstract: Oriented assemblies of functional nanoparticles, with the aid of external physical and chemical driving forces, have been prepared on two-dimensional solid substrates. It is challengeable, however, to achieve three-dimensional assembly directly in solution, owing to thermal fluctuations and free diffusion. Here we describe the self-orientation of gold nanorods at an immiscible liquid interface (that is, oleic acid-water) and exploit this novel phenomenon to create a substrate-free interfacial liquid-state surf… Show more

“…However, it remains a formidable challenge to robust control over the orientation and position of NPs in 3D geometry because of thermal fluctuations and diffusion [68]. Recently, some novel reports on forming hotspots and traping molecules may provide new perspectives to overcome these difficulties, including, pH-controllable reversible assembly of NPs [69,70], thermo-induced coupling in Au/polymer hybrid plasmonic structures [71], and the capillary force-induced self-conglutination of metallic nanorods [53,54] or nanowires [72].…”

“…Trace levels of analytes could be detected from molecules dissolved in either the aqueous or the oil phases. [68,82] Trace multi-analyte detection has also been demonstrated, including cases when some molecules were dissolvable in aqueous phase and some in the organic phase,…”

Three-dimensional SERS hot spots for chemical sensing: Towards developing a practical analyzer

“…However, it remains a formidable challenge to robust control over the orientation and position of NPs in 3D geometry because of thermal fluctuations and diffusion [68]. Recently, some novel reports on forming hotspots and traping molecules may provide new perspectives to overcome these difficulties, including, pH-controllable reversible assembly of NPs [69,70], thermo-induced coupling in Au/polymer hybrid plasmonic structures [71], and the capillary force-induced self-conglutination of metallic nanorods [53,54] or nanowires [72].…”

“…Trace levels of analytes could be detected from molecules dissolved in either the aqueous or the oil phases. [68,82] Trace multi-analyte detection has also been demonstrated, including cases when some molecules were dissolvable in aqueous phase and some in the organic phase,…”

Three-dimensional SERS hot spots for chemical sensing: Towards developing a practical analyzer

“…Strategies like magnetic optical accumulation by using hybrid materials [67], nanoparticle assemblies in liquid-liquid or liquid-air interfaces [68,69] or microfluidics and microdroplets techniques [70,71], have effectively demonstrated to overcome such sensitivity issue. SERS ultradetection of a Raman molecular probe (1-naphthalenethiol) was possible by concentrating core-shell γ-Fe 2 O 3 @SiO 2 coated with rod-shape AuNPs in a small spot of the sample containing the multifunctional material by applying a magnetic field [72].…”

Recent progress on colloidal metal nanoparticles as signal enhancers in nanosensing

“…Platforms need not be solid-state, and liquid-state substrate-free Raman spectroscopy is an emerging technology. 64 By using the strongly enhanced fi eld between two metals, tip-enhanced Raman spectroscopy (TERS) promises sub-1-nm spectral mapping. 65 At low temperature and high vacuum, the tip-to-surface distance is precisely controlled to match the nanocavity plasmon resonance with the energy of molecular vibrations, which signifi cantly enhances the Raman signal.…”

Localized fields, global impact: Industrial applications of resonant plasmonic materials