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Plasmonic Nanogap-Enhanced Raman Scattering with Nanoparticles
Nam, Jwa-Min,Oh, Jeong-Wook,Lee, Haemi,Suh, Yung Doug American Chemical Society 2016 Accounts of chemical research Vol.49 No.12
<P>In this Account, we examine and summarize recent breakthroughs and advances in plasmonic nanogap-enhanced Raman scattering with metal nanogap particles with respect to the design and synthesis of plasmonic nanogap structures, as well as ultra sensitive and quantitative Raman signal detection using these structures. The applications and prospects of plasmonic nanogap particle-based SERS are also discussed. In particular, reliable synthetic and measurement strategies for plasmonically coupled nanostructures with similar to 1 nm gap, in which both the nanogap size and the position of a Raman-active molecule in the gap can be controlled with nanometer/sub-nanometer-level precision, can address important issues regarding the synthesis and optical properties of plasmonic nanostructures, including structural and signal reproducibility. Further, single-molecule/single-particle-level studies on the plasmonic properties of these nanogap structures revealed that these particles can generate ultrastrong, quantifiable Raman signals in a highly reproducible manner.</P>
Kim, Min Cheol,Yu, Kwang Sik,Han, Seung Yun,Kim, Jwa-Jin,Lee, Jae Won,Lee, Nam Seob,Jeong, Yeong Gil,Kim, Do Kyung Elsevier 2018 European polymer journal Vol.98 No.-
<P><B>Abstract</B></P> <P>We report a highly luminescent Carbon Dots passivated by nitrogen rich molecules, i.e. N-isopropylacrylamide (NIPAAM), with a QY as high as ca. 94%, which is the highest yield until now. NIPAMM@C-Dots are synthesized directly from the precursors composed of CA, EDA and NIPAAM by hydrothermal reaction. The optical properties of in situ synthesized NIPAAM@C-Dots showed EX-dependent EM at high concentration and EX-independent EM at low concentration. In most cations and anions except Fe<SUP>3+</SUP> and Bi<SUP>3+</SUP> added to the aqueous solution, NIPAAM@C-Dots exhibit an extremely stable inert behavior. In addition, in order to verify its usefulness as a fluorescent marker, C6 glioblastoma cells and NIPAAM@C-Dots were cultured together and then applied by both confocal bioimaging and flow cytometry analysis. The role of NIPAAM present on or around the C-Dots surface can improve QY values and stability, resulting in reduced cytotoxicity and can be a strong candidate as an alternative to organic dyes.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Carbon Dots passivated by N-isopropylacrylamide (NIPAAM) with a QY of 94% are synthesized. </LI> <LI> NIPAAM@C-Dots showed EX-independent EM at low concentration. </LI> <LI> In most cations and anions except Fe<SUP>3+</SUP> and Bi<SUP>3+</SUP> added to the aqueous solution, NIPAAM@C-Dots exhibit an extremely stable inert behavior. </LI> <LI> C6 glioblastoma cells and NIPAAM@C-Dots were cultured together and then applied by both confocal bioimaging and flow cytometry analysis. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
Lee, Jung-Hoon,Nam, Jwa-Min,Jeon, Ki-Seok,Lim, Dong-Kwon,Kim, Hyoki,Kwon, Sunghoon,Lee, Haemi,Suh, Yung Doug American Chemical Society 2012 ACS NANO Vol.6 No.11
<P>We extensively study the relationships between single-molecule surface-enhanced Raman scattering (SMSERS) intensity, enhancement factor (EF) distribution over many particles, interparticle distance, particle size/shape/composition and excitation laser wavelength using the single-particle AFM-correlated Raman measurement method and theoretical calculations. Two different single-DNA-tethered Au–Ag core–shell nanodumbbell (GSND) designs with an engineerable nanogap were used in this study: the GSND-I with various interparticle nanogaps from ∼4.8 nm to <1 nm or with no gap and the GSND-II with the fixed interparticle gap size and varying particle size from a 23–30 nm pair to a 50–60 nm pair. From the GSND-I, we learned that synthesizing a <1 nm gap is a key to obtain strong SMSERS signals with a narrow EF value distribution. Importantly, in the case of the GSND-I with <1 nm interparticle gap, an EF value of as high as 5.9 × 10<SUP>13</SUP> (average value = 1.8 × 10<SUP>13</SUP>) was obtained and the EF values of analyzed particles were narrowly distributed between 1.9 × 10<SUP>12</SUP> and 5.9 × 10<SUP>13</SUP>. In the case of the GSND-II probes, a combination of >50 nm Au cores and 514.5 nm laser wavelength that matches well with Ag shell generated stronger SMSERS signals with a more narrow EF distribution than <50 nm Au cores with 514.5 nm laser or the GSND-II structures with 632.8 nm laser. Our results show the usefulness and flexibility of these GSND structures in studying and obtaining SMSERS structures with a narrow distribution of high EF values and that the GSNDs with < 1 nm are promising SERS probes with highly sensitive and quantitative detection capability when optimally designed.</P><P><B>Graphic Abstract</B> <IMG SRC='http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/ancac3/2012/ancac3.2012.6.issue-11/nn3028216/production/images/medium/nn-2012-028216_0007.gif'></P><P><A href='http://pubs.acs.org/doi/suppl/10.1021/nn3028216'>ACS Electronic Supporting Info</A></P>