Recent Progress on Stability and Passivation of Black Phosphorus

Advanced Materials
Yohannes AbateStephen B Cronin

Abstract

From a fundamental science perspective, black phosphorus (BP) is a canonical example of a material that possesses fascinating surface and electronic properties. It has extraordinary in-plane anisotropic electrical, optical, and vibrational states, as well as a tunable band gap. However, instability of the surface due to chemical degradation in ambient conditions remains a major impediment to its prospective applications. Early studies were limited by the degradation of black phosphorous surfaces in air. Recently, several robust strategies have been developed to mitigate these issues, and these novel developments can potentially allow researchers to exploit the extraordinary properties of this material and devices made out of it. Here, the fundamental chemistry of BP degradation and the tremendous progress made to address this issue are extensively reviewed. Device performances of encapsulated BP are also compared with nonencapsulated BP. In addition, BP possesses sensitive anisotropic photophysical surface properties such as excitons, surface plasmons/phonons, and topologically protected and Dirac semi-metallic surface states. Ambient degradation as well as any passivation method used to protect the surface could affect the int...Continue Reading

References

Dec 4, 2012·Nature Materials·Kin Fai MakJie Shan
Feb 14, 2013·Nature Communications·Jason S RossXiaodong Xu
Mar 5, 2013·Nature Nanotechnology·Jon A SchullerRashid Zia
Aug 13, 2013·Nature Nanotechnology·Aaron M JonesXiaodong Xu
Mar 4, 2014·Nature Nanotechnology·Likai LiYuanbo Zhang
Apr 24, 2014·Nano Letters·Saptarshi DasAndreas Roelofs
May 20, 2014·Physical Review Letters·A S RodinA H Castro Neto
Sep 23, 2014·Physical Review Letters·Tony LowFrancisco Guinea
Oct 28, 2014·Nano Letters·Han WangShu-jen Han
Feb 14, 2015·Physical Review Letters·A ZilettiA H Castro Neto
Feb 26, 2015·Nano Letters·Weinan ZhuDeji Akinwande
Mar 12, 2015·Scientific Reports·Joon-Seok KimDeji Akinwande
Mar 19, 2015·ACS Nano·Joohoon KangMark C Hersam
Mar 31, 2015·Proceedings of the National Academy of Sciences of the United States of America·Xi LingMildred S Dresselhaus
Apr 11, 2015·Nature Communications·Rostislav A DoganovBarbaros Özyilmaz
Apr 29, 2015·Nature Nanotechnology·Xiaomu WangFengnian Xia
May 26, 2015·Nature Materials·Alexandre FavronRichard Martel
Jun 24, 2015·Nature Communications·Xiaolong ChenNing Wang
Jul 1, 2015·ACS Applied Materials & Interfaces·M T EdmondsM S Fuhrer
Jul 26, 2015·Physical Review Letters·R SchusterB Büchner
Aug 13, 2015·The Journal of Physical Chemistry Letters·Liangzhi KouSean C Smith
Sep 26, 2015·Nano Letters·A MishchenkoL S Levitov
Oct 17, 2015·Nature Communications·Zhe LuoXianfan Xu
Oct 27, 2015·ACS Applied Materials & Interfaces·Peng LiNailiang Yin
Nov 14, 2015·Physical Review Letters·Z J XiangX H Chen
Nov 26, 2015·The Journal of Physical Chemistry Letters·Andres Castellanos-Gomez
Dec 17, 2015·Journal of the American Chemical Society·Nannan MaoJin Zhang
Jan 23, 2016·Nature Communications·Jiajie PeiYuerui Lu
Feb 27, 2016·Physical Review Letters·Andrei NemilentsauGeorge Hanson
Mar 5, 2016·Nano Letters·Steven P KoenigBarbaros Özyilmaz

❮ Previous
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Citations

Mar 29, 2019·Angewandte Chemie·Pedro E M AmaralHai-Feng Ji
Nov 2, 2019·Advanced Materials·Nicholas R GlavinPulickel M Ajayan
Jul 8, 2020·Physical Chemistry Chemical Physics : PCCP·Hyo Jeong YooDo Hyun Kim
Jul 11, 2020·Journal of Materials Chemistry. B, Materials for Biology and Medicine·Dong AnMeng Qiu
Jun 15, 2019·Nanoscale·Luis Vaquero-GarzonAndres Castellanos-Gomez
Dec 25, 2019·Applied Optics·Daxing DongYangyang Fu
Jun 10, 2020·Proceedings of the National Academy of Sciences of the United States of America·Zhen ZhangXinliang Feng
Jun 12, 2020·Nanoscale·Peng KangHong Guo
Jan 30, 2020·Advanced Science·Shameel Thurakkal, Xiaoyan Zhang
Apr 12, 2019·Nature·Mitchell C WattsChristopher A Howard
Dec 22, 2020·Chemical Communications : Chem Comm·Yusi YangJin-Song Hu
Mar 10, 2021·Advanced Materials·Qinxi Qiu, Zhiming Huang
Apr 7, 2021·Optics Express·Ghada Dushaq, Mahmoud Rasras
May 4, 2021·ACS Applied Materials & Interfaces·Ghada Dushaq, Mahmoud Rasras
May 13, 2021·Nanoscale·Alexandra Mavridi-PrinteziMarco Montalti
Jun 7, 2021·Analytica Chimica Acta·Qing LiQuan-Guo He
Jul 30, 2021·Advanced Materials·Ye ZhangHan Zhang
Jan 19, 2021·ACS Biomaterials Science & Engineering·Danyang XuRuichan Lv
Sep 27, 2018·ACS Applied Materials & Interfaces·Kartikey ThakarSaurabh Lodha
Mar 7, 2020·ACS Applied Materials & Interfaces·Andrew E NaclerioPiran R Kidambi
Jul 24, 2020·ACS Applied Materials & Interfaces·Yu-Ling HsiehChing-Yuan Su
May 10, 2019·Bioconjugate Chemistry·Jianing ZhangZigang Li
Aug 11, 2021·Journal of Physics. Condensed Matter : an Institute of Physics Journal·E A Zuluaga-HernandezE Flórez
Sep 9, 2021·Environmental Science and Pollution Research International·Lingfeng Gao, Chiyang He
Sep 27, 2020·Scientific Reports·Trevor David RhoneEfthimios Kaxiras

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