Nano and Pico Characterization Laboratory

An unprecedented collection of instrumentation for surface analysis at the nanoscale and beyond.
<!DOCTYPE html><!-- [et_pb_line_break_holder] --><html><!-- [et_pb_line_break_holder] --><head><!-- [et_pb_line_break_holder] --><style><!-- [et_pb_line_break_holder] -->#header{ width: 100%; height: 80px; background: #333; box-shadow: 0px 2px 4px gray;}<!-- [et_pb_line_break_holder] -->#logonpc{width: 200px; height: 80px; float: right;}<!-- [et_pb_line_break_holder] -->#navbar>ul{width:1000px; height: 80px; float: left; margin: 0px auto;}<!-- [et_pb_line_break_holder] -->#navbar>li {float: left; list-style: none; width: 131px; height: 80px; border-right:1px solid #534444; border-left: 1px solid #534444;}<!-- [et_pb_line_break_holder] -->#navbar>li a{text-decoration: none; color: white; font-family: cursive; font-size: 20px; line-height: 80px; display: block; text-align: center; }<!-- [et_pb_line_break_holder] -->#navbar>li a:hover{background: skyblue; color: #333;}<!-- [et_pb_line_break_holder] --><!-- [et_pb_line_break_holder] -->@media screen and (max-width:1640px){<!-- [et_pb_line_break_holder] -->#logonpc{ width: 150px; height: 80px; float: right; padding right: 40px;}<!-- [et_pb_line_break_holder] -->#navbar>ul{width: 800px; height: 80px; margin: 0px auto; float: right;}<!-- [et_pb_line_break_holder] -->#navbar>li{float: left; list-style: none; width: 113px; height: 80px; border-right:1px solid #534444; border-left: 1px solid #534444;}<!-- [et_pb_line_break_holder] -->#navbar>li a{text-decoration: none; color: white; font-family: cursive; font-size: 16px; line-height: 80px; display: block; text-align: center;}<!-- [et_pb_line_break_holder] -->}<!-- [et_pb_line_break_holder] --><!-- [et_pb_line_break_holder] -->@media screen and (max-width:1450px){<!-- [et_pb_line_break_holder] -->#logonpc{ width: 130px; height: 80px; float: right; padding right: 40px;}<!-- [et_pb_line_break_holder] -->#navbar>ul{width: 800px; height: 80px; margin: 0px auto; float: right;}<!-- [et_pb_line_break_holder] -->#navbar>li{float: left; list-style: none; width: 100px; height: 80px; border-right:1px solid #534444; border-left: 1px solid #534444;}<!-- [et_pb_line_break_holder] -->#navbar>li a{text-decoration: none; color: white; font-family: cursive; font-size: 16px; line-height: 80px; display: block; text-align: center;}<!-- [et_pb_line_break_holder] -->}<!-- [et_pb_line_break_holder] --><!-- [et_pb_line_break_holder] -->@media screen and (max-width:1260px){<!-- [et_pb_line_break_holder] -->#header{ width: 100%; height: 60px; background: #333; box-shadow: 0px 2px 4px gray;}<!-- [et_pb_line_break_holder] -->#logonpc{ width: 110px; height: 60px; float: right; padding right: 40px;}<!-- [et_pb_line_break_holder] -->#navbar>ul{width: 800px; height: 60px; margin: 0px auto; float: right;}<!-- [et_pb_line_break_holder] -->#navbar>li{float: left; list-style: none; width: 83px; height: 60px; border-right:1px solid #534444; border-left: 1px solid #534444;}<!-- [et_pb_line_break_holder] -->#navbar>li a{text-decoration: none; color: white; font-family: cursive; font-size: 14px; line-height: 60px; display: block; text-align: center;}<!-- [et_pb_line_break_holder] -->}<!-- [et_pb_line_break_holder] --><!-- [et_pb_line_break_holder] -->@media screen and (max-width:1060px){<!-- [et_pb_line_break_holder] -->#header{ width: 100%; height: 60px; background: #333; box-shadow: 0px 2px 4px gray;}<!-- [et_pb_line_break_holder] -->#logonpc{ width: 100px; height: 60px; float: right; padding right: 40px;}<!-- [et_pb_line_break_holder] -->#navbar>ul{width: 800px; height: 60px; margin: 0px auto; float: right;}<!-- [et_pb_line_break_holder] -->#navbar>li{float: left; list-style: none; width: 70px; height: 60px; border-right:1px solid #534444; border-left: 1px solid #534444;}<!-- [et_pb_line_break_holder] -->#navbar>li a{text-decoration: none; color: white; font-family: cursive; font-size: 12px; line-height: 60px; display: block; text-align: center;}<!-- [et_pb_line_break_holder] -->}<!-- [et_pb_line_break_holder] --><!-- [et_pb_line_break_holder] -->@media screen and (max-width: 900px){<!-- [et_pb_line_break_holder] -->#header{ width: 100%; height: 224px; background: #333; box-shadow: 0px 2px 4px gray; padding-right: 40px;}<!-- [et_pb_line_break_holder] -->#logonpc{ width: 0px; height: 0px;}<!-- [et_pb_line_break_holder] -->#navbar>ul{width: 100%; height: 28px; margin: 0px auto;}<!-- [et_pb_line_break_holder] -->#navbar>li{float: center; list-style: none; width: 100%; height: 28px; border-top:3px solid #534444;}<!-- [et_pb_line_break_holder] -->#navbar>li a{text-decoration: none; color: white; font-family: cursive; font-size: 12px; line-height: 28px; display: block; text-align: center;}<!-- [et_pb_line_break_holder] -->}<!-- [et_pb_line_break_holder] --><!-- [et_pb_line_break_holder] --></style><!-- [et_pb_line_break_holder] -->

Products

In, Ga, Al – As/Sb/N nanostructures: patterned/self-assembled Q-Dots, Q-Well, Q-Disk, Nanopillar semiconductor heterostructures for opto-electronic devices (solar cells, lasers, single photon emitters, transistors, quantum gates, memory cell, sensors, detectors).

INML provides the services:

Epitaxy Grade 1 – Simple proof of concept epitaxial services, not to extend more than 10 hours for the entire project.

Epitaxy Grade 2 – A more complex series of runs such as a series of samples with changes in parameters. This process will involve constant communication between the core team and the customer.

Epitaxy Grade 3 – Complete device growth where the device could be solar cells, lasers, transistors, and detectors. This service involves a significant level of planning and interaction between the core team and the customer.

Please contact the INML for more details on the grades and pricing.