Exploiting Le Chatelier's principle for a one-pot synthesis of nontoxic HHogGNPs with the sharpest nanoscopic features suitable for tunable plasmon spectroscopy and high throughput SERS sensing.

MLA

Bhattacharya, M., et al. “Exploiting Le Chatelier’s Principle for a One-Pot Synthesis of Nontoxic HHogGNPs with the Sharpest Nanoscopic Features Suitable for Tunable Plasmon Spectroscopy and High Throughput SERS Sensing.” Chemical Communications, vol. 53, no. 75, Sept. 2017, pp. 10402–05. EBSCOhost, https://doi.org/10.1039/c7cc05419j.

APA

Bhattacharya, M., Mazov, V., Satpati, B., Jena, P., Das Chakraborty, S., Kumar, S., Pathak, B., Kuznetsov, D. V., & Senapati, D. (2017). Exploiting Le Chatelier’s principle for a one-pot synthesis of nontoxic HHogGNPs with the sharpest nanoscopic features suitable for tunable plasmon spectroscopy and high throughput SERS sensing. Chemical Communications, 53(75), 10402–10405. https://doi.org/10.1039/c7cc05419j

Chicago

Bhattacharya, M., V. Mazov, B. Satpati, P. Jena, S. Das Chakraborty, S. Kumar, B. Pathak, D. V. Kuznetsov, and D. Senapati. 2017. “Exploiting Le Chatelier’s Principle for a One-Pot Synthesis of Nontoxic HHogGNPs with the Sharpest Nanoscopic Features Suitable for Tunable Plasmon Spectroscopy and High Throughput SERS Sensing.” Chemical Communications 53 (75): 10402–5. doi:10.1039/c7cc05419j.