In-air particle generation by on-chip electrohydrodynamics

Van T. Dau; Tung T. Bui; Canh-Dung Tran; Thanh Viet Nguyen; Tuan-Khoa Nguyen; Toan Dinh; Hoang-Phuong Phan; David Wibowo; Bernd H.A. Rehm; Hang Thu Ta; Nam-Trung Nguyen; Dzung V. Dao

doi:10.1039/d0lc01247e

In-air particle generation by on-chip electrohydrodynamics

Van T. Dau
, Tung T. Bui
, Canh-Dung Tran
, Thanh Viet Nguyen
, Tuan-Khoa Nguyen
, Toan Dinh
, Hoang-Phuong Phan
, David Wibowo
, Bernd H.A. Rehm
, Hang Thu Ta
, Nam-Trung Nguyen
, Dzung V. Dao

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

17 Citations (Scopus)

Abstract

Electrohydrodynamic atomization has been emerging as a powerful approach for respiratory treatment, including the generation and delivery of micro/nanoparticles as carriers for drugs and antigens. In this work, we present a new conceptual design in which two nozzles facilitate dual electrospray coexisting with ionic wind at chamfered tips by a direct current power source. Experimental results by a prototype have demonstrated the capability of simultaneously generating-and-delivering a stream of charged reduced particles. The concept can be beneficial to pulmonary nano-medicine delivery since the mist of nanoparticles is migrated without any restriction of either the collector or the assistance of external flow, but is pretty simple in designing and manufacturing devices.

Original language	English
Pages (from-to)	1779-1787
Number of pages	9
Journal	Lab on a Chip
Volume	21
Issue number	9
DOIs	https://doi.org/10.1039/d0lc01247e
Publication status	Published - 7 May 2021
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

Keywords

electrohydrodynamics
In-air particle generation
on-chip
electrohydrodynamic atomization
respiratory treatment
pulmonary nano-medicine

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10.1039/d0lc01247eLicence: In Copyright

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title = "In-air particle generation by on-chip electrohydrodynamics",

abstract = "Electrohydrodynamic atomization has been emerging as a powerful approach for respiratory treatment, including the generation and delivery of micro/nanoparticles as carriers for drugs and antigens. In this work, we present a new conceptual design in which two nozzles facilitate dual electrospray coexisting with ionic wind at chamfered tips by a direct current power source. Experimental results by a prototype have demonstrated the capability of simultaneously generating-and-delivering a stream of charged reduced particles. The concept can be beneficial to pulmonary nano-medicine delivery since the mist of nanoparticles is migrated without any restriction of either the collector or the assistance of external flow, but is pretty simple in designing and manufacturing devices.",

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AU - Dau, Van T.

AU - Bui, Tung T.

AU - Tran, Canh-Dung

AU - Nguyen, Thanh Viet

AU - Nguyen, Tuan-Khoa

AU - Dinh, Toan

AU - Phan, Hoang-Phuong

AU - Wibowo, David

AU - Rehm, Bernd H.A.

AU - Ta, Hang Thu

AU - Nguyen, Nam-Trung

AU - Dao, Dzung V.

PY - 2021/5/7

Y1 - 2021/5/7

N2 - Electrohydrodynamic atomization has been emerging as a powerful approach for respiratory treatment, including the generation and delivery of micro/nanoparticles as carriers for drugs and antigens. In this work, we present a new conceptual design in which two nozzles facilitate dual electrospray coexisting with ionic wind at chamfered tips by a direct current power source. Experimental results by a prototype have demonstrated the capability of simultaneously generating-and-delivering a stream of charged reduced particles. The concept can be beneficial to pulmonary nano-medicine delivery since the mist of nanoparticles is migrated without any restriction of either the collector or the assistance of external flow, but is pretty simple in designing and manufacturing devices.

AB - Electrohydrodynamic atomization has been emerging as a powerful approach for respiratory treatment, including the generation and delivery of micro/nanoparticles as carriers for drugs and antigens. In this work, we present a new conceptual design in which two nozzles facilitate dual electrospray coexisting with ionic wind at chamfered tips by a direct current power source. Experimental results by a prototype have demonstrated the capability of simultaneously generating-and-delivering a stream of charged reduced particles. The concept can be beneficial to pulmonary nano-medicine delivery since the mist of nanoparticles is migrated without any restriction of either the collector or the assistance of external flow, but is pretty simple in designing and manufacturing devices.

KW - electrohydrodynamics

KW - In-air particle generation

KW - on-chip

KW - electrohydrodynamic atomization

KW - respiratory treatment

KW - pulmonary nano-medicine

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In-air particle generation by on-chip electrohydrodynamics

Abstract

UN SDGs

Keywords

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