<p>The Transparent nonlinear optical benzo[d]isothiazol-3(2H)-one 1,1-dioxide pyridine‑2,6‑diamine silver&#xa0;1 ion (BDIT32HO11DOP26DSI) crystal has been grown, and the single crystal XRD has authenticated the data for BDIT32HO11DOP26DSI crystalline material. The grown BDIT32HO11DOP26DSI crystalline sample was monoclinic with <i>P</i>2<sub>1</sub>/<i>n</i> space group by single crystal XRD analysis. The BDIT32HO11DOP26DSI crystal is a&#xa0;negative photoconductivity class of material. The second-order nonlinear optics (NLO) for macro-scaled specimen was 2.05 times that of a&#xa0;KDP crystal and leads to 143.5 mV as phase matched effectiveness for optronic utilities; extension of opto-electronic use was implemented for frequency doubling as the second-order NLO is physics of frequency doubling and the third-order one is 3.14 μ-esu by Z‑scan. In addition, the reddish LED material based outcome of the BDIT32HO11DOP26DSI macro-crystal had the sensor sensitivity by 7% higher than that of the micro-crystal equal to 5% with that of piezo-electric outcome. The micro-specimen had 76.78 μg/mL as anti-diabetic 50% inhibitory concentration (IC-50) for alpha-amylase case.</p>

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Synthesis and characterization of novel BDIT32HO11DOP26DSI crystals for structural profile, displaying profile, phase-matched, piezo-electric, anti-diabetic, and sensory utilities by theory and practice

  • G. Jeeva Rani Thangam,
  • A. Arulmozhi,
  • R. Hariharasuthan,
  • Emine Berrin Poyraz,
  • Serkan Demir,
  • Serkan Güney,
  • Necmi Dege,
  • K. SenthilKannan

摘要

The Transparent nonlinear optical benzo[d]isothiazol-3(2H)-one 1,1-dioxide pyridine‑2,6‑diamine silver 1 ion (BDIT32HO11DOP26DSI) crystal has been grown, and the single crystal XRD has authenticated the data for BDIT32HO11DOP26DSI crystalline material. The grown BDIT32HO11DOP26DSI crystalline sample was monoclinic with P21/n space group by single crystal XRD analysis. The BDIT32HO11DOP26DSI crystal is a negative photoconductivity class of material. The second-order nonlinear optics (NLO) for macro-scaled specimen was 2.05 times that of a KDP crystal and leads to 143.5 mV as phase matched effectiveness for optronic utilities; extension of opto-electronic use was implemented for frequency doubling as the second-order NLO is physics of frequency doubling and the third-order one is 3.14 μ-esu by Z‑scan. In addition, the reddish LED material based outcome of the BDIT32HO11DOP26DSI macro-crystal had the sensor sensitivity by 7% higher than that of the micro-crystal equal to 5% with that of piezo-electric outcome. The micro-specimen had 76.78 μg/mL as anti-diabetic 50% inhibitory concentration (IC-50) for alpha-amylase case.