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New NANO 36™ Evaporation Tool Installed for Perovskite PV Research Lab

August 12, 2022 | By KJLC Blog

New NANO 36 Evaporation Tool Installed for Perovskite PV Research Lab

The Institute for Solar Energy Research in Hamelin (ISFH), Germany, recently added a Kurt J. Lesker Company NANO 36 evaporation tool to their Perovskite PV research lab. The glovebox integrated deposition system is equipped with two thermal evaporation sources for the deposition of electrical contacts and a corresponding adhesive layer.

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Systems Vacuum Science Deposition Techniques



New PVD 200 E-Beam & Thermal Deposition System Installed at Nazarbayev University

July 20, 2022 | By KJLC Blog

PVD 200 E-Beam & Thermal Deposition System Installed at Nazarbayev University

A new PVD 200 e-beam and thermal deposition system was installed by us in the newly launched micro-and nano-fabrication facility at Nazarbayev University. Among other projects, the research group is working on the fabrication of various field-effect transistors (FETs), microwave kinetic inductance detectors (MKIDs) and other devices. The PVD 200 system will be used for metal lift-off processes and is equipped with an electron beam source and two thermal sources along with a load lock for fast processing. We're looking forward to hearing more about this project in the future!

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Systems Vacuum Science Deposition Techniques



KJLC is Supporting RhySearch in Switzerland with Vacuum Equipment

May 25, 2022 | By KJLC Blog

Rhysearch

We are proud to have supported our customer RhySearch in Switzerland with equipment for their Ion Beam Sputtering of 2D Materials project.For this project, we supported RhySearch with the design and manufacturing of the complete vacuum system. The core of the project is the UHV vacuum chamber, which was manufactured and delivered by the Kurt J. Lesker Company. We also supplied most of the relevant equipment around the vacuum chamber, including motion manipulation parts, vacuum pumps, gauges, feedthroughs and valves.

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Systems Vacuum Science Deposition Techniques



In Situ Recrystallization of Co-Evaporated Cu(In,Ga)Se2 Thin Films by Copper Chloride Vapor Treatment towards Solar Cell Applications

January 17, 2022 | By KJLC Innovate

The Kurt J Lesker Company has been providing Physical Vapor Deposition (PVD) systems to support photovoltaics (PV) research for more than 20 years and continues to support scientists globally to advance this critical renewable energy application. Solar cells work by using materials that absorb photons from sunlight in a broad spectral range and in turn effectively convert this captured light into free charges that produce electricity. Modern commercial solar cells are mainly based on crystalline Silicon, which is a cheap and abundant semiconductor[1]. In recent decades, alternative thin film technologies based on materials combinations including Copper indium gallium diselenide (Cu(In,Ga)Se2 or CIGS), Cadmium Telluride (CdTe), amorphous silicon and organic photovoltaics (OPV) have emerged with high efficiencies coupled with good cell stability, low manufacturing costs and come with the advantage of being a thin film, being both lightweight and flexible[2].

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INNOVATE Systems Vacuum Science Deposition Techniques



The Role of Spin in the Degradation of Organic Photovoltaics

December 01, 2021 | By KJLC Innovate

Organic electronics research has advanced rapidly over the past few decades, with organic light-emitting diodes (OLEDs) now being commonly available in commercial devices such as mobile phones and TVs. Organic photovoltaics (OPVs, or organic solar cells) have potential to follow OLEDs as a commercially viable technology, but a number of challenges still need to be overcome. A recent publication from an international collaboration, with lead authors Prof. Moritz Riede (University of Oxford) and Dr. Ivan Ramirez (Heliatek GmbH), has investigated the degradation pathways of OPV devices using a common organic material, C60, generating understanding which may prove critical to achieve long-term device stability. The complete solar cell structures used in the study were produced using a Kurt J. Lesker SPECTROS evaporation system.

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INNOVATE Systems Vacuum Science Deposition Techniques



Backstreaming of Pump Oil Vapors in Vacuum Systems - Detection, Quantification & Mitigation

October 13, 2021 | By KJLC Innovate

Systems evacuated with oil-based pumps may be victims of backstreaming of pump oil vapors into the fore- line, vacuum chamber, and upstream throughout the system. The back- streaming referred to here is the act of pump oil vapors moving against the flow of molecules traveling from the vacuum chamber to the pump(s). In this case, we refer to these oil vapors as moving upstream, and eventually into the vacuum chamber. At high pressures, where the number of molecules from the chamber outnumber pump oil vapor molecules emanating from the pumping system, flow upstream is greatly mitigated. Oil vapor back- streaming is significantly more pronounced at lower operating pressures.

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INNOVATE Systems Vacuum Science Deposition Techniques



Enhancing the Surface Properties & Functionalization of Polymethyl Methacrylate with Atomic Layer Deposited Titanium (IV) Oxide

June 07, 2021 | By KJLC Innovate

Mina Shahmohammadi from the research group of Professor Christos G. Takoudis, Full Professor in the Departments of Bioengineering and Chemical Engineering at the University of Illinois at Chicago, in collaboration with College of Dentistry, University of Illinois at Chicago, and Kurt J. Lesker Company recently developed conformal atomic layer deposition (ALD) based titanium (IV) oxide (TiO2) thin film processes on Polymethyl Methacrylate (PMMA) displaying excellent surface and mechanical properties for potential engineering, medical, and biomedical applications. The findings were recently published in the Journal of Materials Science.

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INNOVATE Systems Vacuum Science Deposition Techniques



Determination of the Acoustic Impedance Ratio for the Thermal Co-evaporation of Metal-halide Perovskites

April 19, 2021 | By KJLC Innovate

*Photo: ISFH, taken by Salzmann-Fotografie*

The Kurt J Lesker Company has been shipping Physical Vapor Deposition (PVD) tools into the field of perovskite solar cells for the last decade and continues to support researchers in this exciting application. Our partner, Dr. Sascha J. Wolter, along with the Future Technologies Photovoltaics group, headed by Dr. Sarah Kajari-Schröder, at the Institute for Solar Energy Research (ISFH) in Hamelin, Germany, have presented a method to determine the acoustic impedance ratio (Z) for two perovskite precursors that are commonly co-deposited using PVD. In their paper "Determination and influence evaluation of the acoustic impedance ratio for thermal evaporation"[1] they report Z values for methylammonium iodide (MAI) of 0.025 ±0.002 and 0.11 ±0.01 for lead (II) iodide (PbI2). Furthermore, the impact of using an incorrect Z-ratio on actual experimental thermal evaporations is investigated.

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INNOVATE Systems Vacuum Science Deposition Techniques



What Women's History Month Means to Me: An Interview with Cindy Lesker

March 29, 2021 | By KJLC Blog

To celebrate Women's History Month, we spoke with Cindy Lesker who is currently an Owner, Chairwoman, and Vice President of Information Technology at the Kurt J. Lesker Company. Earlier this year, Cindy was a finalist for the prestigious CIO of the Year award by the Pittsburgh Technology Council.

We caught up with Cindy to find out about her journey to being the Chairwoman and CIO of KJLC and what Women's History Month means to her.

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Vacuum Science Deposition Techniques Interviews



Tuning Quantum Properties in a Novel Magnetic Material by Thin Film Engineering

March 04, 2021 | By KJLC Innovate

When a magnetic field (B in Fig. 1 (a)) is applied to a metal, the electric current (J in Fig. 1 (a)) flowing through the metal will be deflected by the magnetic field so that it is not parallel with the applied electric field (E in Fig. 1 (a)). This phenomenon, known as the Hall effect, is well understood in the classical physics. Later, the research on magnetic materials discovered that in certain magnetic materials, the Berry phase, one of the quantum properties of electrons, can alter the motion of electrons without the presence of an external magnetic field (Fig. 1 (b)). This phenomenon is known as the anomalous Hall effect (AHE). In AHE experiments, two quantities are measured: The longitudinal conductivity σxx, which is the conductivity of the material along the direction of the electric field; and the transverse conductivity σxy, which is the conductivity along the perpendicular direction of the electric field. The ratio between σxy and σxx, defined as the anomalous Hall angle, measures the strength of the intrinsic deflection by the Berry phase: The higher the σxy/σxx is, the more prominent the Berry phase is.

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INNOVATE Systems Vacuum Science Deposition Techniques



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