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NIH AREA Grant Research Objectives. NIH AREA Grant Research Objectives Updated: 04/13/2016 AREA grants support small-scale research projects at educational institutions that provide baccalaureate or advanced degrees for a significant number of the Nation's research scientists, but that have not been major recipients of NIH support.

NIH AREA Grant Research Objectives

The goals of the program are to (1) support meritorious research, (2) expose students to research, and (3) strengthen the research environment of the institution. Listed below are the AREA program research topics of particular interest to each Institute/Center. The names of the contacts and their phone numbers and email addresses are available at Applicants are encouraged to contact the person listed for the particular Institute(s) or Center(s) with research interests relevant to the applicant's proposed topic for additional scientific program information and for pre-application guidance. PAPPG Chapter II. NSF 17-1 January 30, 2017 Chapter II - Proposal Preparation Instructions Each proposing organization that is new to NSF or has not had an active NSF assistance award within the previous five years should be prepared to submit basic organization and management information and certifications, when requested, to the applicable award-making division within the Office of Budget, Finance & Award Management (BFA).

PAPPG Chapter II

The requisite information is described in the NSF Prospective New Awardee Guide. The information contained in this Guide will assist the organization in preparing documents which NSF requires to conduct administrative and financial reviews of the organization. This Guide also serves as a means of highlighting the accountability requirements associated with Federal awards. To facilitate proposal preparation, Frequently Asked Questions (FAQs) regarding proposal preparation and submission are available on the NSF website.7.

New and Early Stage Investigator Policies. Project Chart. Sample 1: Gantt Chart — Math Book Development Gantt Chart sample: Math book development.

Project Chart

This example is created using ConceptDraw PROJECT software for project management integrated with ConceptDraw PRO diagramming and vector drawing software enhanced with solution PM Easy from ConceptDraw Solution Park. Transducin. Sensory rhodopsin II (rainbow colored) embedded in a lipid bilayer (heads red and tails blue) with Transducin below it.

Transducin

Gtα is colored red, Gtβ blue, and Gtγ yellow. There is a bound GDP molecule in the Gtα-subunit and a bound retinal (black) in the rhodopsin. The N-terminus terminus of rhodopsin is red and the C-terminus blue.

CCN protiens

Grant opportunities. The 3 things you should know about hashCode() In Java, every object has a method hashCode that is simple to understand but still it’s sometimes forgotten or misused.

The 3 things you should know about hashCode()

Here are three things to keep in mind to avoid the common pitfalls. An object’s hash code allows algorithms and data structures to put objects into compartments, just like letter types in a printer’s type case. Multiphoton polymerization with the holographic control of femtosecond and continuous laser radiation. A unit in which two lasers, one with femtosecond and the other continuous radiation, were used was designed and manufactured.

Multiphoton polymerization with the holographic control of femtosecond and continuous laser radiation

Both lasers worked under holographic control conditions provided by two spatial optic modulators. Experiments with creating several polymer structures by several femtosecond optical “traps” simultaneously were performed. Topology and flow dynamics of cortical vasculature. : The smallest stroke: occlusion of one penetrating vessel leads to infarction and a cognitive deficit : Nature Neuroscience. Laser Zentrum Hannover e.V. Two photon induced polymerization of organic–inorganic hybrid biomaterials for microstructured medical devices. A Joint Department of Biomedical Engineering, University of North Carolina, Campus Box 7575, Chapel Hill, NC 27599-7575, USAb Joint Department of Biomedical Engineering, North Carolina State University, Campus Box 7115, Raleigh, NC 27695-7115, USAc United States Naval Research Laboratory, Washington, DC, USAd Laser Zentrum Hannover, Hannover, Germany Received 9 July 2005, Revised 27 December 2005, Accepted 12 January 2006, Available online 15 March 2006 Choose an option to locate/access this article: Check if you have access through your login credentials or your institution Check access doi:10.1016/j.actbio.2006.01.004.

Two photon induced polymerization of organic–inorganic hybrid biomaterials for microstructured medical devices

Multiphoton microscopy of transdermal quantum dot delivery using two photon polymerization-fabricated polymer microneedles. Compare 3D Printers. Самые маленькие скульптуры в мире, которые нельзя увидеть без микроскопа. Присоединяйтесь к нам в Facebook и ВКонтакте Скульптуры размером в 100 микрон.

Самые маленькие скульптуры в мире, которые нельзя увидеть без микроскопа

Two photon induced polymerization of organic-inorganic hybrid biomaterials for microstructured medical devices. Laser Zentrum Hannover e.V.

Two photon induced polymerization of organic-inorganic hybrid biomaterials for microstructured medical devices

LZH Publications Two photon induced polymerization of organic-inorganic hybrid biomaterials for microstructured medical devices R.J. Narayan, J. Indirect rapid prototyping of small-scale medical devices. Laser Zentrum Hannover e.V.

Indirect rapid prototyping of small-scale medical devices

LZH Publications Indirect rapid prototyping of small-scale medical devices R. Boehm, B. Home - LASER on demand. Laser CNC nesting software CAGILA - CAM system for laser, scanner, waterjet, plasma cutting - CAM-Service GmbH. Laser Zentrum Hannover e.V. Atomic Scale Design : Two-Photon Polymerization. The history of the development of the femtosecond (10-15 sec) laser systems is intense and exciting one. Due to the extremely short duration of the pulse, the peak power of modern commercially available laser can exceed 200 gigawatt. In comparison, the total power of power stations of Germany, including solar power plants, and wind power stations are expected to approach 120 GW by the year 2010. Application of femtosecond pulses allows the introduction of laser energy with unprecedented precision in space and time.

By applying the light source that has the same timescale as molecular vibrations, one could observe and even control the outcome of chemical and biological reactions in a real time. FastLane Help. FastLane Help.