19.7% Efficient All-Screen-Printed Back-Contact Back-Junction Silicon Solar Cell With Aluminum-Alloyed Emitter

A Systematic Approach to Reduce Process-Induced Shunts in Back-Contacted MC-Si Solar Cells

Analysis of the current linearity at low illumination of high-efficiency back-junction back-contact silicon solar cells

Analyzing the effects of front-surface fields on back-junction silicon solar cells using the charge-collection probability and the reciprocity theorem

Back-contact back-junction silicon solar cells under UV illumination

Back-contacted back-junctionn-type silicon solar cells featuring an insulating thin film for decoupling charge carrier collection and metallization geometry

Boron LCP local back surface fields for high efficiency silicon solar cells

Combining laser chemical processing and aerosol jet printing: a laboratory scale feasibility study

Comparison of emitter saturation current densities determined by injection-dependent lifetime spectroscopy in high and low injection regimes

Decoupling charge carrier collection and metallization geometry of back-contacted back-junction silicon solar cells by using insulating thin films

Enhanced current collection in back-contacted back-junction Si solar cells by overcompensating a boron emitter with a phosphorus base-type doping

Enhanced lateral current transport via the front N+diffused layer of n-type high-efficiency back-junction back-contact silicon solar cells

High-Efficiency Silicon Solar Cells With Boron Local Back Surface Fields Formed by Laser Chemical Processing

Highly efficient all-screen-printed back-contact back-junction silicon solar cells with aluminum-alloyed emitter

How to achieve 17% cell efficiencies on large back-contacted mc-Si solar cells

Improved diffusion profiles in back-contacted back-junction Si solar cells with an overcompensated boron-doped emitter

Industrial LCP selective emitter solar cells with plated contacts

Influence of pulse duration on the doping quality in laser chemical processing (LCP)—a simulative approach

Investigation of electrical shading effects in back-contacted back-junction silicon solar cells using the two-dimensional charge collection probability and the reciprocity theorem

Laser cutting of silicon with the liquid jet guided laser using a chlorine-containing jet media

article published in 2010

Microstructuring and wafering of silicon with laser chemical processing

Modeling and optimization study of industrial n-type high-efficiency back-contact back-junction silicon solar cells

Positive effects of front surface field in high-efficiency back-contact back-junction n-type silicon solar cells

Shading effects in back-junction back-contacted silicon solar cells

Short-Circuit Current Losses in Back-Contacted Back–Junction Si Solar Cells: Experiment and Simulation of the Charge Collection Probability

Simulation supported description of the local doping formation using laser chemical processing (LCP)

Texturization of Si(100) substrates using tensioactive compounds