The full text of this article hosted at iucr.org is unavailable due to technical difficulties.

Advanced Science

Volume 0, Issue 0
Communication
Open Access

Cold Vapor Generation beyond the Input Solar Energy Limit

Haomin Song

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Youhai Liu

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Zhejun Liu

Material Science Department, Fudan UniversityShanghai, China

Search for more papers by this author
Matthew H. Singer

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Chenyu Li

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Alec R. Cheney

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Dengxin Ji

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Lyu Zhou

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Nan Zhang

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Xie Zeng

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Zongmin Bei

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

Search for more papers by this author
Zongfu Yu

Department of Electrical and Computer Engineering, University of WisconsinMadison, WI, USA

Search for more papers by this author
Suhua Jiang

Material Science Department, Fudan UniversityShanghai, China

Deceased December 31, 2017.Search for more papers by this author
Qiaoqiang Gan

Corresponding Author

E-mail address:qqgan@buffalo.edu

Department of Electrical Engineering, The State University of New York at BuffaloBuffalo, NY, USA

E‐mail: E-mail address:qqgan@buffalo.edu
Search for more papers by this author
First published: 03 May 2018
https://doi.org/10.1002/advs.201800222

This article was prepared in memory of Dr. Suhua Jiang (1976–2017)

Abstract

100% efficiency is the ultimate goal for all energy harvesting and conversion applications. However, no energy conversion process is reported to reach this ideal limit before. Here, an example with near perfect energy conversion efficiency in the process of solar vapor generation below room temperature is reported. Remarkably, when the operational temperature of the system is below that of the surroundings (i.e., under low density solar illumination), the total vapor generation rate is higher than the upper limit that can be produced by the input solar energy because of extra energy taken from the warmer environment. Experimental results are provided to validate this intriguing strategy under 1 sun illumination. The best measured rate is ≈2.20 kg m−2 h−1 under 1 sun illumination, well beyond its corresponding upper limit of 1.68 kg m−2 h−1 and is even faster than the one reported by other systems under 2 sun illumination.