Red photoluminescence BCNO synthesized from graphene oxide nanosheets

Yue Kang , Zeng-yong Chu , Tian Ma , Wei-ping Li , Dong-jiu Zhang , Xiao-yu Tang

Optoelectronics Letters ›› : 1 -4.

PDF
Optoelectronics Letters ›› : 1 -4. DOI: 10.1007/s11801-016-5227-y
Article

Red photoluminescence BCNO synthesized from graphene oxide nanosheets

Author information +
History +
PDF

Abstract

In this paper, we demonstrate the conversion of graphene oxide (GO) into boron carbon oxynitride (BCNO) hybrid nanosheets via a reaction with boric acid and urea, during which the boron and nitrogen atoms are incorporated into graphene nanosheets. The experimental results reveal that GO is important for the photoluminescence (PL) BCNO phosphor particles. More importantly, in this system, the prepared BCNO phosphors can be used to prepare the materials needed for red light emitting diodes (LEDs).

Keywords

Boron Nitride / Graphene Nanosheets / Boron Oxide / Phene / Graphene Oxide Nanosheets

Cite this article

Download citation ▾
Yue Kang, Zeng-yong Chu, Tian Ma, Wei-ping Li, Dong-jiu Zhang, Xiao-yu Tang. Red photoluminescence BCNO synthesized from graphene oxide nanosheets. Optoelectronics Letters 1-4 DOI:10.1007/s11801-016-5227-y

登录浏览全文

4963

注册一个新账户 忘记密码

References

[1]

ParaknowitschJ. P., ThomasA.. Energy & Environmental Science, 2013, 6: 2839

[2]

SongL., LiuZ., ReddyA. L. M., NarayananN. T., Taha-TijerinaJ., PengJ., GaoG. H., LouJ., VajtaiR., AjayanP. M.. Advanced Materials, 2012, 24: 4878

[3]

PortehaultD., GiordanoC., GervaisC., SenkovskaI., KaskelS., SanchezC., AntoniettiM.. Advanced Functional Materials, 2010, 20: 1827

[4]

LiuX. F., YeS., QiaoY. B., DongG. P., ZhangQ., QiuJ. R.. Chemical Communications, 2009, 27: 4073

[5]

WangM., JangS. K., JangW. J., KimM., ParkS. Y., KimS. W., KahngS. J., ChoiJ. Y., RuoffR. S., SongY. J.. Advanced Materials, 2013, 25: 2746

[6]

XieJ. F., ZhangZ. Y., YangD. Z., XueD. S., SiM. S.. Journal of Physical Chemistry Letters, 2014, 5: 4073

[7]

MiyamotoY., RubioA., LouieS. G., CohenM. L.. Physical Review B: Condensed Matter, 1994, 50: 18360

[8]

WatanabeM. O., ItohS., SasakiT., MizushimaK.. Physical Review Letters, 1996, 77: 187

[9]

JiangD. S., JiangY. Z., XiaH. P., ZhangJ. Z., YangS., GuX. M., JiangH. C., ChenB. J.. Optoelectronics Letters, 2015, 11: 356

[10]

NuryadinB. W., PratiwiT. P., IskandarF., AbdullahM., KhairurrijalK., OgiT., OkuyamaK.. Advanced Powder Technology, 2014, 25: 891

[11]

ChenQ. L., S. Z.. Optoelectronics Letters, 2015, 11: 370

[12]

LeiW. W., PortehaultD., DimovaR., AntoniettiM.. Journal of American Chemical Society, 2011, 133: 7121

[13]

LiL. L., JiJ., FeiR., WangC. Z., LuQ., ZhangJ. R., JiangL. P., ZhuJ. J.. Advanced Functional Materials, 2012, 22: 2971

[14]

OgiT., KaihatsuY., IskandarF., WangW., OkuyamaK.. Advanced Materials, 2008, 20: 3235

[15]

ChuZ. Y., KangY., JiangZ. H., LiG. Y., HuT. J., WangJ., ZhouZ. F., LiH. Y., WangX. J.. RSC Advances, 2014, 4: 26855

[16]

BaiX. J., WangL., ZhuY. F.. ACS Catalysis, 2012, 2: 2769

[17]

WangW. N., OgiT., KaihatsuY., IskandarF., OkuyamaK.. Journal of Materials Chemistry, 2011, 21: 5183

AI Summary AI Mindmap
PDF

84

Accesses

0

Citation

Detail

Sections
Recommended

AI思维导图

/