期刊
IEEE SENSORS JOURNAL
卷 22, 期 10, 页码 9215-9227出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JSEN.2022.3161013
关键词
Nanobioscience; Graphene; Molecular communication (telecommunication); Absorption; Proteins; In vivo; Protein engineering; Terahertz (THz) radiation; THz communication in vivo; molecular nano-communication network; health monitoring; THz biological channel; Internet-of-Nano-Things
资金
- Science and Technology Projects in Guangzhou [202102010472, BS123456]
Terahertz-band communications are crucial for future healthcare scenarios. Broadband THz sources have high detectability and non-ionization properties. They have great potential for medical diagnostics and treatment technologies, although challenges such as biological safety need to be addressed.
Terahertz (THz)-band (0.1 similar to 10 THz) communications are celebrated to be a crucial enabling technology for sixth generation (6G) wireless systems that fulfil the stringent requirements of future healthcare scenarios. Broadband THz sources have drawn the attention of researchers by virtue of their prominent detectability and their noninvasive and non-ionization properties. More importantly, the most advanced wideband THz sources enable THz communication in vivo with many appealing properties, including potential link capacities (terabit-per-second), miniature transceivers, and high energy efficiency. Compared to conventional devices, nano-scale devices will be potentially pivotal in subsequent medical diagnostics and treatment technologies, by virtue of the non-ionizing property of THz light and its high sensitivity in conveniently reaching delicate body sites. Thereby, real-time, label-free detection methods are expected to perform a crucial effect in clinical practice; however, difficulties such as unknown biological safety still need to be overcome. With channel modeling progress of the THz frequencies, we have considered both the radiation of the medium and the molecular absorption from the transmitted signal, and envisoned the possibility to solve the challenges such as the spectrum scarcity and capacity limitation.
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