Quantum dots are finding increasing commercial success in LED applications.While they have been used for several years in remote off-chip architectures for display applications,it is shown for the first time to our knowledge that quantum dots can withstand the demands of the on-chip architecture and therefore are capable of being used as a direct phosphor replacement in both lighting and display applications.It is well known that,to achieve improved color metrics in lighting as well as increased gamut in display technologies,it is highly desirable to utilize a downconverter with a narrow emission linewidth as well as a precisely tunable peak.This paper will discuss the results of on-chip use of quantum dots in a lighting product,and explore the opportunities and practical limits for improvement of various lighting and display metrics by use of this unique downconverter technology. Quantum dots are finding increasing commercial success in LED applications. Because they have been used for several years in remote off-chip architectures for display applications, it is shown for the first time to our knowledge that quantum dots can withstand the demands of the on- chip architecture and therefore are capable of being used as a direct phosphor replacement in both lighting and display applications. It is well known that to achieve improved color metrics in lighting as well as increased gamut in display technologies, it is highly desirable to utilize a downconverter with a narrow emission linewidth as well as a precisely tunable peak.This paper will discuss the results of on-chip use of quantum dots in a lighting product, and explore the opportunities and practical limits for improvement of various lighting and display metrics by use of this unique downconverter technology.