Giant clam inspired high-speed photo-conversion for ultraviolet optical wireless communication

Ram Chandra Subedi; Susann Rossbach; Chun Hong Kang; Omar Alkhazragi; Xiaobin Sun; Jorge A. Holguin-Lerma; Somak Mitra; Iman S. Roqan; Ali R. Behzad; Rachid Sougrat; Tien Khee Ng; Donal D.C. Bradley; Carlos M. Duarte; Boon S. Ooi

doi:10.1364/OME.423432

Giant clam inspired high-speed photo-conversion for ultraviolet optical wireless communication

Ram Chandra Subedi, Susann Rossbach, Chun Hong Kang, Omar Alkhazragi, Xiaobin Sun, Jorge A. Holguin-Lerma, Somak Mitra, Iman S. Roqan, Ali R. Behzad, Rachid Sougrat, Tien Khee Ng, Donal D.C. Bradley, Carlos M. Duarte, Boon S. Ooi

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Organisms have evolved the ability to manipulate light for vision, as a means to capture its energy, to protect themselves from damage, especially against ultraviolet (UV) and other high flux radiation, and for display purposes. The makeup of the structural elements used for this manipulation often discloses novel pathways for man-made photonic devices. Iridocytes in the mantle of giant clams in the Tridacninae subfamily manipulate light in many ways, e.g., as reflectors, scattering centers, and diffusers. There is, however, a void in understanding the absorption and photoluminescence (PL) emission dynamics of these cells. In turn, a profound understanding of iridocytes' photophysics can offer the prospect for a new generation of advanced optoelectronic materials and devices. Here, the structural and optical properties of the iridocytes embedded in the mantle tissue of the Tridacna maxima are investigated and their use as a high-speed color convertor for UV photodetection, well-suited to application in UV optical wireless communication, is demonstrated.

Original language	English
Pages (from-to)	1515-1526
Number of pages	12
Journal	Optical Materials Express
Volume	11
Issue number	5
DOIs	https://doi.org/10.1364/OME.423432
Publication status	Published - May 2021

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Subedi, R. C., Rossbach, S., Kang, C. H., Alkhazragi, O., Sun, X., Holguin-Lerma, J. A., Mitra, S., Roqan, I. S., Behzad, A. R., Sougrat, R., Ng, T. K., Bradley, D. D. C., Duarte, C. M., & Ooi, B. S. (2021). Giant clam inspired high-speed photo-conversion for ultraviolet optical wireless communication. Optical Materials Express, 11(5), 1515-1526. https://doi.org/10.1364/OME.423432

@article{118743fb0aac4419a550282a0882d881,

title = "Giant clam inspired high-speed photo-conversion for ultraviolet optical wireless communication",

abstract = "Organisms have evolved the ability to manipulate light for vision, as a means to capture its energy, to protect themselves from damage, especially against ultraviolet (UV) and other high flux radiation, and for display purposes. The makeup of the structural elements used for this manipulation often discloses novel pathways for man-made photonic devices. Iridocytes in the mantle of giant clams in the Tridacninae subfamily manipulate light in many ways, e.g., as reflectors, scattering centers, and diffusers. There is, however, a void in understanding the absorption and photoluminescence (PL) emission dynamics of these cells. In turn, a profound understanding of iridocytes' photophysics can offer the prospect for a new generation of advanced optoelectronic materials and devices. Here, the structural and optical properties of the iridocytes embedded in the mantle tissue of the Tridacna maxima are investigated and their use as a high-speed color convertor for UV photodetection, well-suited to application in UV optical wireless communication, is demonstrated.",

author = "Subedi, {Ram Chandra} and Susann Rossbach and Kang, {Chun Hong} and Omar Alkhazragi and Xiaobin Sun and Holguin-Lerma, {Jorge A.} and Somak Mitra and Roqan, {Iman S.} and Behzad, {Ali R.} and Rachid Sougrat and Ng, {Tien Khee} and Bradley, {Donal D.C.} and Duarte, {Carlos M.} and Ooi, {Boon S.}",

note = "Publisher Copyright: {\textcopyright} 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.",

year = "2021",

month = may,

doi = "10.1364/OME.423432",

language = "English",

volume = "11",

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AU - Subedi, Ram Chandra

AU - Rossbach, Susann

AU - Kang, Chun Hong

AU - Alkhazragi, Omar

AU - Sun, Xiaobin

AU - Holguin-Lerma, Jorge A.

AU - Mitra, Somak

AU - Roqan, Iman S.

AU - Behzad, Ali R.

AU - Sougrat, Rachid

AU - Ng, Tien Khee

AU - Bradley, Donal D.C.

AU - Duarte, Carlos M.

AU - Ooi, Boon S.

PY - 2021/5

Y1 - 2021/5

N2 - Organisms have evolved the ability to manipulate light for vision, as a means to capture its energy, to protect themselves from damage, especially against ultraviolet (UV) and other high flux radiation, and for display purposes. The makeup of the structural elements used for this manipulation often discloses novel pathways for man-made photonic devices. Iridocytes in the mantle of giant clams in the Tridacninae subfamily manipulate light in many ways, e.g., as reflectors, scattering centers, and diffusers. There is, however, a void in understanding the absorption and photoluminescence (PL) emission dynamics of these cells. In turn, a profound understanding of iridocytes' photophysics can offer the prospect for a new generation of advanced optoelectronic materials and devices. Here, the structural and optical properties of the iridocytes embedded in the mantle tissue of the Tridacna maxima are investigated and their use as a high-speed color convertor for UV photodetection, well-suited to application in UV optical wireless communication, is demonstrated.

AB - Organisms have evolved the ability to manipulate light for vision, as a means to capture its energy, to protect themselves from damage, especially against ultraviolet (UV) and other high flux radiation, and for display purposes. The makeup of the structural elements used for this manipulation often discloses novel pathways for man-made photonic devices. Iridocytes in the mantle of giant clams in the Tridacninae subfamily manipulate light in many ways, e.g., as reflectors, scattering centers, and diffusers. There is, however, a void in understanding the absorption and photoluminescence (PL) emission dynamics of these cells. In turn, a profound understanding of iridocytes' photophysics can offer the prospect for a new generation of advanced optoelectronic materials and devices. Here, the structural and optical properties of the iridocytes embedded in the mantle tissue of the Tridacna maxima are investigated and their use as a high-speed color convertor for UV photodetection, well-suited to application in UV optical wireless communication, is demonstrated.

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Giant clam inspired high-speed photo-conversion for ultraviolet optical wireless communication

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