Aaron Bartnik scite author profile

A vast majority of existing sub-millimeter-scale sensors have a planar, 2D geometry as a result of conventional top-down lithographic procedures. However, 2D sensors often suffer from restricted sensing capability, allowing only partial measurements of 3D quantities. Here, nano/microscale sensors with different geometric (1D, 2D, and 3D) configurations are reviewed to introduce their advantages and limitations when sensing changes in quantities in 3D space. This Review categorizes sensors based on their geometric configuration and sensing capabilities. Among the sensors reviewed here, the 3D configuration sensors defined on polyhedral structures are especially advantageous when sensing spatially distributed 3D quantities. The nano- and microscale vertex configuration forming polyhedral structures enable full 3D spatial sensing due to orthogonally aligned sensing elements. Particularly, the cubic configuration leveraged in 3D sensors offers an array of diverse applications in the field of biosensing for micro-organisms and proteins, optical metamaterials for invisibility cloaking, 3D imaging, and low-power remote sensing of position and angular momentum for use in microbots. Here, various 3D sensors are compared to assess the advantages of their geometry and its impact on sensing mechanisms. 3D biosensors in nature are also explored to provide vital clues for the development of novel 3D sensors.

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3D Sensing: Small‐Scale Biological and Artificial Multidimensional Sensors for 3D Sensing (Small 35/2018)

Agarwal

Hwang

Bartnik

et al. 2018

Small

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In article number https://doi.org/10.1002/smll.201801145, Jeong‐Hyun Cho and co‐workers review the detection mechanisms in sub‐millimeter scale three‐dimensional (3D) sensors that exhibit unique spatial sensing capabilities based on their physical configuration. The review draws parallels between biological and man‐made 3D sensors based on their geometry and sensory functionalities to provide vital clues for the further advancement of 3D sensing mechanisms.

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Aaron Bartnik

Small‐Scale Biological and Artificial Multidimensional Sensors for 3D Sensing

3D Sensing: Small‐Scale Biological and Artificial Multidimensional Sensors for 3D Sensing (Small 35/2018)

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