Interface-mediated hygroelectric generator with an output voltage approaching 1.5 volts

Hygroelectricity is proposed as a means to produce electric power from air by absorbing gaseous or vaporous water molecules, which are ubiquitous in the atmosphere. Here, using a synergy between a hygroscopic bulk graphene oxide with a heterogeneous structure and interface mediation between electrod...

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Published inNature communications Vol. 9; no. 1; pp. 4166 - 8
Main Authors Huang, Yaxin, Cheng, Huhu, Yang, Ce, Zhang, Panpan, Liao, Qihua, Yao, Houze, Shi, Gaoquan, Qu, Liangti
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 09.10.2018
Nature Publishing Group
Nature Portfolio
Subjects
140/133
140/146
142/136
147/135
147/3
639/301/1005/1007
639/638/298/917
Atmosphere
Electric potential
Electric power
Electric power generation
Electrical junctions
Electricity distribution
Electronic devices
Electronic equipment
Graphene
Heterogeneous structure
High voltage
High voltages
Humanities and Social Sciences
multidisciplinary
Potential energy
Scaling
Science
Science (multidisciplinary)
Voltage
Water chemistry
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Abstract Hygroelectricity is proposed as a means to produce electric power from air by absorbing gaseous or vaporous water molecules, which are ubiquitous in the atmosphere. Here, using a synergy between a hygroscopic bulk graphene oxide with a heterogeneous structure and interface mediation between electrodes/materials with Schottky junctions, we develop a high-performance hygroelectric generator unit with an output voltage approaching 1.5 V. High voltage (e.g., 18 V with 15 units) can be easily reached by simply scaling up the number of hygroelectric generator units in series, enough to drive commercial electronic devices. This work provides insight for the design and development of hygroelectric generators that may promote the efficient conversion of potential energy in the environmental atmosphere to electricity for practical applications. Hygroelectric generators comprised of electrodes and a hygroscopic material with a chemical-gradient structure can produce electricity by absorbing water vapor. Here, the authors achieve a high output voltage by employing hygroscopic heterogeneous graphene oxide and materials with Schottky junctions.
AbstractList Hygroelectric generators comprised of electrodes and a hygroscopic material with a chemical-gradient structure can produce electricity by absorbing water vapor. Here, the authors achieve a high output voltage by employing hygroscopic heterogeneous graphene oxide and materials with Schottky junctions.
Hygroelectricity is proposed as a means to produce electric power from air by absorbing gaseous or vaporous water molecules, which are ubiquitous in the atmosphere. Here, using a synergy between a hygroscopic bulk graphene oxide with a heterogeneous structure and interface mediation between electrodes/materials with Schottky junctions, we develop a high-performance hygroelectric generator unit with an output voltage approaching 1.5 V. High voltage (e.g., 18 V with 15 units) can be easily reached by simply scaling up the number of hygroelectric generator units in series, enough to drive commercial electronic devices. This work provides insight for the design and development of hygroelectric generators that may promote the efficient conversion of potential energy in the environmental atmosphere to electricity for practical applications. Hygroelectric generators comprised of electrodes and a hygroscopic material with a chemical-gradient structure can produce electricity by absorbing water vapor. Here, the authors achieve a high output voltage by employing hygroscopic heterogeneous graphene oxide and materials with Schottky junctions.
Hygroelectricity is proposed as a means to produce electric power from air by absorbing gaseous or vaporous water molecules, which are ubiquitous in the atmosphere. Here, using a synergy between a hygroscopic bulk graphene oxide with a heterogeneous structure and interface mediation between electrodes/materials with Schottky junctions, we develop a high-performance hygroelectric generator unit with an output voltage approaching 1.5 V. High voltage (e.g., 18 V with 15 units) can be easily reached by simply scaling up the number of hygroelectric generator units in series, enough to drive commercial electronic devices. This work provides insight for the design and development of hygroelectric generators that may promote the efficient conversion of potential energy in the environmental atmosphere to electricity for practical applications.
Hygroelectricity is proposed as a means to produce electric power from air by absorbing gaseous or vaporous water molecules, which are ubiquitous in the atmosphere. Here, using a synergy between a hygroscopic bulk graphene oxide with a heterogeneous structure and interface mediation between electrodes/materials with Schottky junctions, we develop a high-performance hygroelectric generator unit with an output voltage approaching 1.5 V. High voltage (e.g., 18 V with 15 units) can be easily reached by simply scaling up the number of hygroelectric generator units in series, enough to drive commercial electronic devices. This work provides insight for the design and development of hygroelectric generators that may promote the efficient conversion of potential energy in the environmental atmosphere to electricity for practical applications.Hygroelectricity is proposed as a means to produce electric power from air by absorbing gaseous or vaporous water molecules, which are ubiquitous in the atmosphere. Here, using a synergy between a hygroscopic bulk graphene oxide with a heterogeneous structure and interface mediation between electrodes/materials with Schottky junctions, we develop a high-performance hygroelectric generator unit with an output voltage approaching 1.5 V. High voltage (e.g., 18 V with 15 units) can be easily reached by simply scaling up the number of hygroelectric generator units in series, enough to drive commercial electronic devices. This work provides insight for the design and development of hygroelectric generators that may promote the efficient conversion of potential energy in the environmental atmosphere to electricity for practical applications.
ArticleNumber 4166
Author Zhang, Panpan
Liao, Qihua
Shi, Gaoquan
Huang, Yaxin
Cheng, Huhu
Qu, Liangti
Yang, Ce
Yao, Houze
Author_xml – sequence: 1
  givenname: Yaxin
  surname: Huang
  fullname: Huang, Yaxin
  organization: Key Laboratory for Advanced Materials Processing Technology, Ministry of Education of China, State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University
– sequence: 2
  givenname: Huhu
  surname: Cheng
  fullname: Cheng, Huhu
  email: huhucheng@tsinghua.edu.cn
  organization: Key Laboratory for Advanced Materials Processing Technology, Ministry of Education of China, State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University, Department of Chemistry, Tsinghua University
– sequence: 3
  givenname: Ce
  surname: Yang
  fullname: Yang, Ce
  organization: Key Laboratory for Advanced Materials Processing Technology, Ministry of Education of China, State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University
– sequence: 4
  givenname: Panpan
  surname: Zhang
  fullname: Zhang, Panpan
  organization: Key Laboratory for Advanced Materials Processing Technology, Ministry of Education of China, State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University
– sequence: 5
  givenname: Qihua
  surname: Liao
  fullname: Liao, Qihua
  organization: Key Laboratory for Advanced Materials Processing Technology, Ministry of Education of China, State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University
– sequence: 6
  givenname: Houze
  surname: Yao
  fullname: Yao, Houze
  organization: Key Laboratory for Advanced Materials Processing Technology, Ministry of Education of China, State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University, Department of Chemistry, Tsinghua University
– sequence: 7
  givenname: Gaoquan
  surname: Shi
  fullname: Shi, Gaoquan
  organization: Department of Chemistry, Tsinghua University
– sequence: 8
  givenname: Liangti
  orcidid: 0000-0003-2626-9318
  surname: Qu
  fullname: Qu, Liangti
  email: lqu@bit.edu.cn
  organization: Key Laboratory for Advanced Materials Processing Technology, Ministry of Education of China, State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University, Department of Chemistry, Tsinghua University, Beijing Key Laboratory of Photoelectronic/Electrophotonic Conversion Materials, School of Chemistry and Chemical Engineering, Beijing Institute of Technology
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30301892$$D View this record in MEDLINE/PubMed
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Snippet Hygroelectricity is proposed as a means to produce electric power from air by absorbing gaseous or vaporous water molecules, which are ubiquitous in the...
Hygroelectric generators comprised of electrodes and a hygroscopic material with a chemical-gradient structure can produce electricity by absorbing water...
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SubjectTerms 140/133
140/146
142/136
147/135
147/3
639/301/1005/1007
639/638/298/917
Atmosphere
Electric potential
Electric power
Electric power generation
Electrical junctions
Electricity distribution
Electronic devices
Electronic equipment
Graphene
Heterogeneous structure
High voltage
High voltages
Humanities and Social Sciences
multidisciplinary
Potential energy
Scaling
Science
Science (multidisciplinary)
Voltage
Water chemistry
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Title Interface-mediated hygroelectric generator with an output voltage approaching 1.5 volts
URI https://link.springer.com/article/10.1038/s41467-018-06633-z
https://www.ncbi.nlm.nih.gov/pubmed/30301892
https://www.proquest.com/docview/2117376566
https://www.proquest.com/docview/2117819108
https://pubmed.ncbi.nlm.nih.gov/PMC6177432
https://doaj.org/article/54502134dd074372a27efb3fa90db54d
Volume 9
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