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Enabling Energy Efficient Molecular Communication via Molecule Energy Transfer

Yansha Deng, Weisi Guo, Adam Noel, Arumugam Nallanathan, Maged Elkashlan
2017 IEEE Communications Letters  
INTRODUCTION Recently, molecular communication has been proposed as the potential enabler for nano-scale communication between nanomachines via the transmission of chemical signals in very small dimensions  ...  Hence, how to reduce the molecule synthesis cost to improve energy efficiency in molecular communication becomes an important question to answer.  ... 
doi:10.1109/lcomm.2016.2624727 fatcat:w5nvqb2wbvc4lgkbhjds6xsoyu

Light Energy Driven Nanocommunications with FRET in Photosynthetic Systems

Aleksandra Orzechowska, Joanna Fiedor, Pawel Kulakowski
2021 IEEE Access  
where Fӧrster resonance energy transfer (FRET) can be used both for communication and for molecular and cellular imaging [6] .  ...  RESONANCE ENERGY TRANSFER Fӧrster resonance energy transfer is a fundamental mechanism of the energy transfer between photosynthetic molecules and thus it will be reviewed in more details in this section  ... 
doi:10.1109/access.2021.3066306 fatcat:hye2pmaz2zahvcu5ls2uqkiksu

Universal Transceivers: Opportunities and Future Directions for the Internet of Everything (IoE) [article]

Meltem Civas, Oktay Cetinkaya, Murat Kuscu, Ozgur B. Akan
2021 arXiv   pre-print
impose several fundamental challenges, such as interoperability, ubiquitous connectivity, energy efficiency, and miniaturization.  ...  (with modalities such as molecular, RF/THz, optical and acoustic) and in energy harvesting (with modalities such as mechanical, solar, biochemical), modularity, tunability, and scalability.  ...  for individual communication modalities, e.g., the frequency of transmit signals in RF communications or the type of carrier molecules in MC, will contribute to the adaptivity, energy efficiency, and  ... 
arXiv:2107.01028v1 fatcat:uo5wul3hkbendbfnz46hu5ejgy

SMIET: Simultaneous Molecular Information and Energy Transfer [article]

Weisi Guo, Yansha Deng, H. Birkan Yilmaz, Nariman Farsad, Maged Elkashlan, Chan-Byoung Chae, Andrew Eckford, Arumugam Nallanathan
2016 arXiv   pre-print
The article demonstrates the potential of ultra-low energy simultaneous molecular information and energy transfer (SMIET) through the design of two different nano-relay systems, and the discusses how molecular  ...  In this article, we show that it is possible to achieve ultra low energy communications at the nano-scale, if diffusive molecules are used for carrying data.  ...  In so doing, we propose simultaneous molecular information and energy transfer (SMIET). A.  ... 
arXiv:1605.09474v2 fatcat:sx76b7ngwbextabzrbu23mk76y

Light Energy Driven Nanocommunications with FRET in Photosynthetic Systems [article]

Aleksandra Orzechowska, Joanna Fiedor, Pawel Kulakowski
2020 arXiv   pre-print
Photosynthetic molecules, i.e., chlorophylls and carotenoids, are proposed for molecular communications in nano scale with the mechanism of resonance energy transfer.  ...  The first one aims at its spectroscopic description including calculation of the energy transfer efficiency between carotenoids and chlorophylls.  ...  the purpose of molecular communications in nano scale.  ... 
arXiv:2003.01628v1 fatcat:nxghhpvc3vgutoslaewqh2maxq

SMIET: Simultaneous Molecular Information and Energy Transfer

Weisi Guo, Yansha Deng, H. Birkan Yilmaz, Nariman Farsad, Maged Elkashlan, Andrew Eckford, Arumugam Nallanathan, Chan-Byoung Chae
2018 IEEE wireless communications  
In so doing, we propose simultaneous molecular information and energy transfer (SMIET). A.  ...  In this article, we draw on our understanding of energy consumption and harvesting in wireless communications to design bio-inspired energy efficient molecular communication sub-systems.  ... 
doi:10.1109/mwc.2017.1600308 fatcat:znvatphaqrfozlqau4mdysdfse

Measurements on MIMO-FRET Nano-Networks Based on Alexa Fluor Dyes

Krzysztof Wojcik, Kamil Solarczyk, Pawel Kulakowski
2015 IEEE transactions on nanotechnology  
Resonance Energy Transfer (FRET) offers significantly smaller propagation delays and high channel throughput.  ...  We propose to use Alexa Fluor dyes as nano transmitters and receivers, as they enable to create multiple-input multi-output (MIMO) FRET communication channels and thus enhance FRET efficiency.  ...  Hence, the crucial issue is to enable efficient communication between nano-devices.  ... 
doi:10.1109/tnano.2015.2415201 fatcat:xpnrseb2dzar3n3272vdrsfs2i

Communication via FRET in Nanonetworks of Mobile Proteins

Jakub Kmiecik, Pawel Kulakowski, Krzysztof Wojcik, Andrzej Jajszczyk
2016 Proceedings of the 3rd ACM International Conference on Nanoscale Computing and Communication - NANOCOM'16  
It is assumed that fluorophore molecules send and receive signals using the Forster Resonance Energy Transfer.  ...  The probability of the efficient signal transfer and the respective bit error rate are calculated and discussed.  ...  FRET BASICS The Förster Resonance Energy Transfer is a physical phenomenon where an excited molecule, called donor, non-radiatively passes its energy to another molecule, called acceptor, located in its  ... 
doi:10.1145/2967446.2967477 dblp:conf/nanocom/KmiecikKWJ16 fatcat:mefn23hrnjac5lsmhvpthav3da

Universal Transceivers: Opportunities and Future Directions for the Internet of Everything (IoE)

Meltem Civas, Oktay Cetinkaya, Murat Kuscu, Ozgur B. Akan
2021 Frontiers in Communications and Networks  
Terms– Internet of Everything, Universal IoE Transceiver, Interoperability, Multi-modality, Hybrid Energy Harvesting, Molecular Communications, THz Communications, Graphene and related nanomaterials.  ...  impose several fundamental challenges, such as interoperability, ubiquitous connectivity, energy efficiency, and miniaturization.  ...  Enabling Energy Efficient Molecular Communication via Molecule Energy Transfer. IEEE Commun.  ... 
doi:10.3389/frcmn.2021.733664 fatcat:nwppn6djqzacjodaabkrl6wlle

Long-lived lanthanide emission via a pH-sensitive and switchable LRET complex

Tamara Boltersdorf, Felicity Gavins, Nicholas J Long
2021 Chemical Science  
Lanthanide-based luminescence resonance energy transfer (LRET) can be used as a tool to enhance lanthanide emission for time-resolved cellular imaging applications.  ...  No communication between the two units was found in compound 3, indicating that the linker length was too long for efficient energy transfer.  ...  Quin C1 acts as a lanthanide sensitiser and enhances LRET donor emission via energy transfer to the emissive terbium state.  ... 
doi:10.1039/d1sc01503f fatcat:r3qkq2oqmbb5xpymbiufvgas6a

Designing and understanding light-harvesting devices with machine learning

Florian Häse, Loïc M. Roch, Pascal Friederich, Alán Aspuru-Guzik
2020 Nature Communications  
Biological organisms have evolved complex metabolic mechanisms to efficiently convert sunlight into chemical energy.  ...  Understanding the fundamental processes of light-harvesting is crucial to the development of clean energy materials and devices.  ...  of electronic excitations induced by photon absorption as the primary energy conversion step, followed by excitation energy transport (EET) and finally charge-separation, via charge-transfer (CT) excitations  ... 
doi:10.1038/s41467-020-17995-8 pmid:32917886 fatcat:5vh5ngciaraajae26uqtcqq43e

Introductory Chapter: BODIPY Dye, an All-in-One Molecular Scaffold for (Bio)Photonics [chapter]

Rebeca Sola-Llano, Jorge Bañuelos
2019 BODIPY Dyes - A Privilege Molecular Scaffold with Tunable Properties  
These molecular antennae outstand by their broadband absorption, spanning the whole visible, but selective red emission from the last energy acceptor after transport of the light via successive and efficient  ...  whole energy transfer.  ... 
doi:10.5772/intechopen.82682 fatcat:rxhy2gcjrfcudfwrv7vmco3cue

Development of Photofunctional Devices Based on Organic–Inorganic Hybrid Structures

Ayumi ISHII
2021 Electrochemistry (Tokyo. 1999)  
transfer (Förster 369 resonance energy transfer, FRET) from Yb 3+ activated by CsPbCl3 via the interlayer quantum-cutting 370 process (Fig. 4b) .  ...  When the organic dye absorbs light and its energy matches the energy level of the 256 lanthanide ions, energy transfer occurs with high efficiency.  ...  It suggests that the energy transfer from electrically 377 excited CsPbCl3 to Yb 3+ effectively occurs as well as the case of photoexcitation, which is enhanced by 378 effective carrier diffusion of perovskite  ... 
doi:10.5796/electrochemistry.21-00090 fatcat:kqanth5dknhxlkr6qhyszqbipq

Delocalization of exciton and electron wavefunction in non-fullerene acceptor molecules enables efficient organic solar cells

Guichuan Zhang, Xian-Kai Chen, Jingyang Xiao, Philip C. Y. Chow, Minrun Ren, Grit Kupgan, Xuechen Jiao, Christopher C. S. Chan, Xiaoyan Du, Ruoxi Xia, Ziming Chen, Jun Yuan (+12 others)
2020 Nature Communications  
These properties are critical in enabling highly efficient charge generation in OSC systems with negligible donor-acceptor energy offset.  ...  Importantly, such molecular packing leads to (i) the formation of delocalized and emissive excitons that enable small non-radiative voltage loss, and (ii) delocalization of electron wavefunctions at donor  ...  The distinctive molecular packing in the Y6 crystal impact favorably not only the charge-transport properties but also the energy-transfer properties.  ... 
doi:10.1038/s41467-020-17867-1 pmid:32770068 fatcat:egmhl7ihdfdqpckufejf4pzfjy

Routing in FRET-Based Nanonetworks

Pawel Kulakowski, Kamil Solarczyk, Krzysztof Wojcik
2017 IEEE Communications Magazine  
In this article we focus on the nanocommunications via Forster Resonance Energy Transfer (FRET), which was found to be a technique with a very high signal propagation speed, and discuss how to route signals  ...  We introduce five new routing mechanisms, based on biological properties of specific molecules. We experimentally validate one of these mechanisms.  ...  FRET is a process in which a molecule, known as a donor, is able to non-radiatively (i.e. without releasing a photon) transfer its energy to another molecule, called an acceptor.  ... 
doi:10.1109/mcom.2017.1600760 fatcat:r6j42ow2eneyblvtd6s7lauhzy
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