Abstract
Herein, we present the rapid synthesis of mono-dispersed carbon quantum dots (C-QDs) via a single-step microwave plasma-enhanced decomposition (MPED) process. Highly-crystalline C-QDs were synthesized in a matter of 5 min using the fenugreek seeds as a sustainable carbon source. It is the first report, to the best of our knowledge, where C-QDs were synthesized using MPED via natural carbon precursor. Synthesis of C-QDs requires no external temperature other than hydrogen (H2) plasma. Plasma containing the high-energy electrons and activated hydrogen ions predominantly provide the required energy directly into the reaction volume, thus maximizing the atom economy. C-QDs shows excellent Photoluminescence (PL) activity along with the dual-mode of excitation-dependent PL emission (blue and redshift). We investigate the reason behind the dual-mode of excitation-dependent PL. To prove the efficacy of the MPED process, C-QDs were also derived from fenugreek seeds using the traditional synthesis process, highlighting their respective size-distribution, crystallinity, quantum yield, and PL. Notably, C-QDs synthesis via MPED was 97.2% faster than the traditional thermal decomposition process. To the best of our knowledge, the present methodology to synthesize C-QDs via natural source employing MPED is three times faster and far more energy-efficient than reported so far. Additionally, the application of C-QDs to produce the florescent lysozyme protein crystals “hybrid bio-nano crystals” is also discussed. Such a guest–host strategy can be exploited to develop diverse and complex "bio-nano systems". The florescent lysozyme protein crystals could provide a platform for the development of novel next-generation polychrome luminescent crystals.
Highlights
We present the rapid synthesis of mono-dispersed carbon quantum dots (C-QDs) via a singlestep microwave plasma-enhanced decomposition (MPED) process
MPED is similar to the plasma-enhanced chemical vapor deposition (PECVD) process except that the precursors can be any natural carbon source and can be used in the as-is form
As illustrated in Figure S1†, the optical emission spectrum (OES) spectra show that the abundant charge ions in the hydrogen plasma can be utilized to reduce the natural carbon source to synthesize the C PE-QDs
Summary
We present the rapid synthesis of mono-dispersed carbon quantum dots (C-QDs) via a singlestep microwave plasma-enhanced decomposition (MPED) process. The application of C-QDs to produce the florescent lysozyme protein crystals “hybrid bio-nano crystals” is discussed. Such a guest–host strategy can be exploited to develop diverse and complex "bio-nano systems". Even though the solution directed approach is impressive; the crystal directed approach is more versatile and promising to study the complex mechanisms compared to the solution directed approach[28,29] Inspired by this fact, hosting the C-QDs into the lysozyme protein channels will be fascinating
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