Aspen Aerogels, Inc. (NYSE:ASPN) Q1 2023 Earnings Call Transcript

Aspen Aerogels, Inc. (NYSE:ASPN) Q1 2023 Earnings Call Transcript May 6, 2023

Operator: Good morning. Thank you for attending the Aspen Aerogels, Inc. Q1 2023 Financial Results Conference Call. All lines will be muted during the presentation portion of the call with an opportunity for questions-and-answers at the end. I would now like to turn the conference over to your host, Neal Baranosky Aspen’s Senior Director, Corporate of Strategy and Finance. Thank you. You may proceed, Mr. Baranosky.

Neal Baranosky: Thank you, Alexis. Good morning, and thank you for joining us for the Aspen Aerogels fiscal year 2023 first quarter financial results conference call. With us today are Don Young, President and CEO; and Ricardo Rodriguez, Chief Financial Officer. There are a few housekeeping items, I would like to address before turning the call over to Don. The press release announcing Aspen’s financial results and business developments as well as a reconciliation of management’s use of non-GAAP financial measures compared to the most applicable U.S. generally accepted accounting principles or GAAP measures is available on the Investors section of Aspen’s website, www.aerogel.com. Included in the press release is a summary statement of operations, a summary balance sheet, and a summary of key financial and operating statistics for the 2023 first quarter ended March 31, 2023.

In addition, I’d like to highlight that we’ve uploaded to our website a slide deck that will accompany our conversation today. You can find the deck at the Investors section of our website. An archive of today’s webcast will be on our website for approximately one year. Please note that any discussion today will include forward-looking statements, including any statement regarding outlook, expectations, beliefs, projections, estimates, targets, prospects, business plans and any other statement that is not a historical fact. These forward-looking statements are subject to risks and uncertainties. Aspen actual results may differ materially from those expressed in these forward-looking statements. A list of factors that could affect the company’s actual results can be found in Aspen’s press release issued yesterday, Page 1 of the presentation and I’ll discuss in more detail on the reports Aspen files with the SEC, particularly in the company’s most recent annual report on Form 10-Q.

The company’s press release issued yesterday and filed with the SEC can also be found in the Investors section of Aspen’s website. Forward-looking statements made today reference the company’s views as of today, May 4, 2023. Aspen Aerogels disclaims any obligation to update these forward-looking statements to reflect future events or circumstances. During this call, we will refer to non-GAAP financial measures, including adjusted EBITDA. These financial measures are not prepared in accordance with GAAP. These non-GAAP financial measures are not intended to be considered in isolation or as a substitute for results prepared in accordance with GAAP. The definitions and reconciliations of these non-GAAP financial measures to the most directly comparable GAAP financial measures and a discussion of why we present these non-GAAP financial measures are included in yesterday’s press release.

And one final note, during the Q&A session, in the interest of time, we ask that you limit your questions to two questions at a time. If you have additional questions beyond the initial two, please get back into the queue, and we will get to all questions. I’ll now turn the call over to Don. Don?

Donald Young: Thanks, Neal, and welcome to Aspen. Good morning, everyone. Thank you for joining us for our Q1 2023 earnings call. My initial comments will focus on our Q1 performance, our highlights from our EV OEM development work and our strategy for balancing demand, supply and financing. Ricardo will dig deeper into our financial results, our EV business and our strategy. We will conclude with a Q&A session. The performance in the first quarter sets us on a path to reach our 2023 outlook of revenue between $200 million and $250 million and positive EBITDA in Q4. We anticipate sequential revenue growth as we work through the year. This growth outlook is a function of a very strong energy industrial backlog and the expected ramping of our EV customers, especially General Motors.

This anticipated EV PyroThin ramp is the key factor impacting whether we are at the low or high end of our 2023 revenue outlook. During Q1, we saw continued improvements in operating efficiencies, which resulted in an 11% gross margin, which with continued revenue growth, we believe keeps us on track for longer-term gross margins at or above 35%. We also maintained careful control of OpEx. During our last call, we announced that we received both a letter of intent from the luxury brand of a major German OEM group and an order for approximately 1.5 million prototype parts from the commercial truck brand within the same German OEM group. Recently, we converted the prototype parts order into a multiyear award with the start of vehicle production in early 2024.

We expect to announce the name of the commercial truck brand during the latter part of 2023, as we commenced delivery of production parts, with respect to the LOI for the sister company within the German OEM group we believe we will convert it into an award in the very near term. These volumes commence in 2024 and ramp in 2025. We believe the awarded business and the advance stage of the letter of intent position us well to earn broad adoption by other brands of this important German OEM. In other EV news, we continue to have a deep technical and commercial engagement with General Motors and, of course, a financial relationship through the $100 million term loan, which we have yet to draw upon. In addition, we believe that we are on the cusp of winning more awards with other EV OEMs. We are confident that we will complete 2023 with awards from a broad and interesting array of EV customers.

As we look out over 2023, in addition to adding OEM awards, we expect PyroThin thermal barrier revenue to build over the year as automotive OEMs scale their operations and at the same time, we expect our energy industrial business with purchase orders received for 2023 of approximately $180 million to remain strong through the year and to provide a steady base load of revenue. Even with our large backlog in energy, industrial and our growing list of EV customers, we have carefully considered our near term strategy, especially as it pretrains to manufacturing capacity and financing. The current macroenvironment, the unfavorable financing market and the potential for a more drawn out industry wide EV ramp have caused us to reevaluate our current plan.

There are several parts to this thought process. During this possible and even likely recession scenario, we are taking a conservative approach to the preservation of our capital which equal $205 million at the end of Q1 2023. During this period of time, we plan to reduce our OpEx and CapEx to grow our revenue significantly and to focus on our profitability. The key pivot is to right time the final stages of the construction of Plant 2 in Statesboro, Georgia and in the meantime, to largely dedicate our Plant 1 aerogel manufacturing capacity in East Providence to PyroThin thermal barriers in order to serve our EV OEM customers. We estimate that we have the ability to generate approximately $400 million of PyroThin thermal barrier revenue from an EV dedicated Plant 1.

Our goal is to time the startup of Plant 2 to match the revenue ramp of our EV OEMs beyond the approximately $400 million of revenue capacity available for Plant 1. To put the approximately $400 million revenue number in content, we anticipate thermal barrier revenue of between $70 million and $100 million for the year 2023 and between $250 million and $300 million for 2024. To be clear, we plan to slow our capital investments during 2023 and 2024, but not our growth. And at the same time, we will remain poised to take full advantage of our opportunities. With respect to supplying our valuable energy industrial business, after one year of development and negotiations, we have reached a manufacturing agreement with a Chinese aerogel manufacturer to supply energy industrial product to us beginning no later than January 2024.

The product will be produced to our quality specifications and shift by us under our labeling through our distribution and to our customers. We believe that the manufacturing agreement enables to maintain and grow our energy industrial business and to largely dedicate Plant 1 to our EV PyroThin thermal barrier business. In this scenario, from our current manufacturing assets and supply arrangements, we could have annual revenue capacity of $500 million to $600 million, gross margins at or above 35% and EBITDA meaningfully positive. The strategy enables us to reduce OpEx and CapEx to generate positive EBITDA and to preserve our existing capital and to serve successfully both our EV and energy industrial businesses. Again, we would right time the remaining construction of Plant 2 to coincide with the ramp of our EV OEMs beyond the approximately $400 million of revenue capacity of Plant 1.

We anticipate that it would take approximately four quarters after the restart of full construction to complete Plant 2. We believe that we continue to have our full upside opportunity, but during a period of — potential period of economic uncertainty and while our EV OEMs ramp, we optimize the use of our existing assets to create a cash generating business and to avoid unnecessary dilution. Our strategy is to leverage our aerogel technology platform into large dynamic markets. Central to that strategy is our investments in the research, development, commercialization and the protection of our proprietary technologies. Our patent portfolio has been consistently validated in courts across the United States, Europe and Asia. Chinese made Aerogel products have previously been found to infringe our patents in multiple jurisdictions globally.

As we announced in April, we filed patent enforcement actions in Korea against Berenberg, a Norwegian reseller and associated entities, including their Chinese aerogel manufacturer related to the unlawful import and sale of infringing aerogel products. The actions, alleged infringement of patents covering our high performance reinforced aerogel compositions and our process technology, including the Korean counterparts of patents previously enforced successfully by us against Chinese aerogel manufacturers in Germany and the United States. With these actions against Berenberg, we again send a clear message to the markets that we will continue to aggressively enforce our intellectual property rights against any manufacturer, distributor or end user of Aerogel products that infringe our patents.

These actions are coincident with our entering a supply agreement with a Chinese manufacturing company. In essence, we have created an extension of our aerogel supply capabilities controlled by us to meet the demand of our energy industrial customers, again, under our label and to our quality specifications while also taking any necessary actions to prevent infringing products from entering the market. Aspen continues to be the innovation leader in aerogel technology, and we have the IP portfolio to back it up. Before I turn the call over to Ricardo, I want to mention a couple of activities we have ongoing in public policy. Aspen is actively in dialogue with lawmakers on Capitol Hill as well as the Department of Energy and the Department of Transportation, including the National Highway Traffic Safety Administration around strengthening United States regulations surrounding safety in battery electric vehicles.

International harmonization around safety regulation has taken place in China, India, Korea and Japan, but not formally yet in the United States. We believe stronger safety regulations and most importantly, safer electric vehicles, enhance consumer confidence in electric vehicles, protect lives, protect property and help our first responders. We expect that as battery electric vehicles become more prevalent, communities, insurers and the federal government will advocate for enhanced safety measures and requirements. We intend to be an important part of that conversation. The U.S. Department of Energy’s loan program office was created to grant loans for large scale energy infrastructure projects with the goal of supporting the development of more fuel efficient products, including the expansion of domestic manufacturing of electric vehicles.

Our team, including our external advisers have been in consultation with the loan program office related to a proposed application for a significant loan as part of its advanced technology vehicle manufacturing program, which offers loans to support U.S. manufacturing of fuel efficient advanced technology vehicles and qualifying components. The LPO process is uncertain and can be drawn out in time, and there’s no guarantee that our proposed application would be looked upon favorably. In fact, our first application for a U.S. Department of Energy grant for advanced battery materials as part of the Bipartisan Infrastructure Act was not funded in 2022. Since that time, we have put considerable effort into the LPO process, and we believe we are a very good candidate for a direct loan as part of the advanced technology vehicle manufacturing based on the importance of batteries performance and safety.

Again, timing can be drawn out. But in our case, it may match well with the right timing strategy for our Plant 2. Ricardo, over to you.

Ricardo Rodriguez: Thank you, Don. I’ll start by providing an update on Plant 2, its construction progress, the latest on timing and our previously projected expense land towards it. As you can see on the left side of Slide 4, the site work and foundations have been completed. While the building construction, along with the electrical distribution are on schedule. Our team is on track to power the site at the end of June of this year. The team was on track for commissioning the plant at the end of the first half of 2024. We believe that our near-term EV thermal barrier demand is on track to ramp up in 2023 and that this ramp will fluctuate within the range of our revenue expectations, thanks to the development of contract manufacturing supply from China in 2024 and the investments in our Aerogel Plant in Rhode Island, we now have the flexibility to be able to right time and align the startup of Plant 2 for when it is ultimately needed to ensure alignment between supply and demand.

This retiming allows us to reduce our total 2023 CapEx guidance to less than $150 million, including the $40 million that have already been spent towards Plant 2 in Q1. In discussions with our current and prospective EV thermal barrier customers, we are reassuring them that our Aerogel Plant in Rhode Island, combined with our assembly operations in Mexico can more than meet their demand in 2023, 2024 and the portion of 2025 depending on their volumes. As Don mentioned in his remarks, our Aerogel Plant in Rhode Island can support multiple customers and deliver over $400 million of annual revenue capacity, and we estimate that the contract manufacturing capacity can add another $150 million of revenues from energy industrial customers, resulting in total revenue capacity of at least $550 million per year, all available in 2024.

Turning over to Slide 5. As we move the startup of Plant 2 to a different time line, our capital needs over the next 18 months are more than met as we manage the business towards generating positive cash flow, which we believe will in turn enable a lower cost of capital for Aspen. We continue having several discussions with different parties to raise capital that minimizes dilution to ensure that when we decide to reaccelerate our investment in Plant 2, we’d be funding it with a mix of operating cash flow and funds already on the balance sheet at that point in time. Before the end of May, we will also be applying for a loan from the DOE’s ATVM program, which is exactly focused on situations like ours, that can satisfy a broad and long-term set of sustainability and American competitiveness objectives.

A potential positive decision towards the end of this year and the reacceleration of our investments in Plant 2 could coincide. Our cash balance at the end of the quarter of $208 million, combined with $100 million of prospective equipment backed financing, would provide us with $308 million of total liquidity to manage the company towards generating positive cash flows without investing in Plant 2. As a reminder, we currently have an open loan commitment of $100 million from General Motors that is limited to being used for Plant 2. We intend to work with General Motors to extend the availability of these funds for when we decide to resume investing in Plant 2. We estimate that we need to spend $150 million to drive the company towards generating positive cash flows and the expected liquidity of $308 million without considering the GM loan to provide us enough flexibility to do that.

Before moving on to the next slide, I’d like to outline our ATM or at-the-market stock sale volume and price over the last 12 months. As one can see, we have restrained ourselves from using ATM sales to fund our plans since August of last year and raised net proceeds of $72.7 million at an average net share price of $13.88 per share. At the recent range of Aspen’s share price, we’ve refrained from selling shares and do not intend to sell equity below the share price of our most recent equity offering of $9.50 per share in December of 2022. To recap, with the right timing of Plant 2, we have more than enough capital to fund our near-term growth and get to generating positive cash flows. Our revised execution plan is a retiming of our investments, not a delay in our growth and is aimed at accelerating our path to profitability.

Although, we are managing our capital strategy for at least eight quarters ahead, we remain focused on short-term execution. I’ll now step back to cover the main highlights of the last quarter on Slide 6. Starting with revenues. We delivered $45.6 million of revenue in Q1, which translates into 19% growth year-over-year. Energy industrial demand remained strong. As Don mentioned during his opening remarks, purchase orders for the remainder of the year are up over approximately 125% when compared to the same time last year. Our Q1 energy industrial revenues of $33.9 million were 2% lower than the prior quarters and 10% higher year-over-year. The quarter-over-quarter growth, however, doesn’t totally do justice to our ability to produce Aerogel in Q1 as we front loaded the manufacturing of aerogel for subsea projects that will translate into revenue in Q3 of this year.

EV thermal barrier revenues of $11.7 million put us slightly below the revenue run rate that we had in Q3 of 2022 of $12 million, which reflect a delay in GM’s ramp-up of Ultium battery platform vehicle production. While revenues in this segment were up 53% year-over-year, they are down 54% quarter-over-quarter as we fulfilled a supplemental order from General Motors of approximately $30 million during Q4 of last year and the early part of Q1 of this year. We are in close consultation with GM as they ramp up during the remainder of the year and expect their volumes to increase. Next, I’ll provide a summary of our main expenses. Material expenses of $18.7 million for the quarter made up 41 percentage points of sales, which was within single digit percentage points of where we want to be long-term.

Conversion costs, which we describe as all production costs required to convert raw materials into finished products were $21.8 million and made up 48 percentage points of sales in Q1. These include all elements of direct labor, manufacturing overhead, factory supplies, rent, insurance, utilities, process logistics, quality and inspection. These compare with cost of 50 percentage points of sales in Q1 of 2022. It is worth highlighting that these costs reflect the lower absorption of fixed costs caused by making aerogel for subsea projects that was not recognized as revenue in Q1. In Q1, our gross profit margins were up 11%, an increase of nearly $7 million in gross profit when compared to Q1 a year ago. Our gross profit of $5.1 million was composed of $8.9 million from our Energy & Industrial segments and a negative $3.8 million from our EV thermal barrier segment.

These represent gross profit margins of positive 26% and negative 32%, respectively, for the quarter. For EV thermal barriers, we need a quarterly revenue run rate of $20 million to have positive gross profit, but it is encouraging to see that our gross loss was less than half of what it was in Q3 of last year on a very similar revenue run rate of approximately $12 million per quarter. Operating expenses, which are enabling our growth were of $24 million. These remained flat quarter-over-quarter versus an increase of $2 million in Q4 over Q3 of last year and an increase of $4.6 million in Q2 over Q1 in 2022. We’ve leveled off our OpEx increases and have focused any increases on delivering two things: one, tangible productivity benefits through our new process development and the implementation of systems that streamline our methods and drive productivity, such as our IT infrastructure and tool chain; and two, new OEM production awards through our EV thermal barrier technical sales efforts, delivering prototype parts and converting these pursuits into awards.

At this point, any new investment that drives OpEx to deliver these two things needs to be offset by savings somewhere else in the business during the same time frame or in anticipation of any potential OpEx increases. Putting these elements together, our adjusted EBITDA was negative $13.9 million in Q1 compared to negative $14.6 million in Q1 of the prior year, resulting in a year-over-year reduction in our EBITDA loss of 5%. As a reminder, we define adjusted EBITDA as net income or loss before interest, taxes, depreciation, amortization, stock-based compensation expenses and other items that we do not believe are indicative of our core operating performance. In Q1, these other items included $2.3 million of stock-based compensation and $2.1 million of net interest income.

Optimizing our supply side to make the most accretive products in Q1 has yielded benefits and profitability that have put us $4 million ahead of where we expected to be in EBITDA at this point of the year. Our net loss in Q1 decreased to $16.8 million or $0.24 per share versus a net loss of $19.5 million or $0.59 per share in the same quarter of 2022. Our quarter-over-quarter net loss increased by $7.2 million from $9.6 million. It is worth clarifying that for all these earnings per share calculation, our number of fully diluted shares outstanding was $30.4 million at the end of 2021, a weighted average 39.4 million shares in 2022 and our number of shares outstanding at the end of the quarter was of 70 million shares. Next, I’ll turn to cash flow and our balance sheet.

Cash used in operations of $24.7 million reflected our adjusted EBITDA of negative $13.9 million, offset by an increase in cash needs of $10.7 million that reflects a quarterly decrease in accounts payable of $5.5 million, an increase in accounts receivable of $10 million and a decrease of inventory of $5 million. These put our operating cash needs for the quarter at $74 million. Capital expenditures during the quarter of $49.4 million included the partial construction of the main buildings in the Statesboro, Georgia for Plant 2, assembly equipment for automated thermal barrier operations in Mexico, and the finishes of our advanced thermal barrier development center in the Boston area. As progress on the construction of our second Aerogel manufacturing Plant continued, we have incurred $204.2 million in capital expenses through the end of Q1 towards it.

We ended the quarter with $207.5 million of cash and shareholders’ equity of $432.5 million. Now I’ll turn to Slide 7. Slide 7 has a lot of content, but we think it’s worth covering it today as it provides a view on every macro input that we factor into our thinking as we develop our EV thermal barrier business and strategy to its full potential. There are eight different elements driving our content per vehicle opportunity and in turn its revenues. I won’t bore you with every detail, and we’ve included some background materials in the appendix of this presentation to allow you to get into all the details at your own leisure. The top parameters that drive our PyroThin business are global light and heavy-duty vehicle sales. The penetration of battery electric and plug-in hybrid powertrains and the cell chemistry, form factor and size or capacity of the batteries powering these vehicles.

PyroThin excels as a cell to cell barrier for OEMs that are investing in delaying or stopping thermal runaway and propagation in pouch or prismatic cells. Now that Aspen is two years into the journey of building this market, we are seeing a growing market in the heavy electric vehicle commercial truck space and in the LFP chemistry cell market across the board. As OEMs push the range limits of plug-in hybrids and increase the size of plug-in hybrid vehicle batteries. This also represents additional opportunity. Turning to Slide 8. We take a deep dive into our global EV battery form factor outlook since we’ve gotten several questions around this from investors. And there seems to be a lot of value placed and speculation around changes in direction or diversification here from some OEMs. We’ve been spending a lot of time with our customers and outside experts developing an informed view of our outlook, and we’d like to walk you through it.

A sales form factor influences the cell’s ability to dissipate and transmit heat to its neighboring cells. There are three dominant type of form factors today: pouch, prismatic and cylindrical. Aerogel cell-to-cell thermal barriers are best suited for form factors, which require high thermal propagation protection as well as very specific mechanical needs regarding compression between each cell. Consequently, we see the highest CPV with pouch designs due to the increased probability of thermal propagation and stringent cell compression requirements to accommodate battery swelling. Prismatic designs also represent a significant opportunity for our PyroThin product as they require thermal barriers that can compress to fit into very tight spaces.

We have not focused on cylindrical form factors and to develop a specific product due to the complex geometric requirements, thus limiting the opportunity for self-cell varies in clinical form factors, but opportunities in the module and pack level could materialize down the road. The current global mix of battery form factors varies by region, which is really driven by the market share and battery architecture of specific OEMs within each market. The market is expected to evolve as OEMs continue to experiment and diversify their form factor mix. In North America, we expect to shift away from cylindrical cells as OEMs gain market share from the current market leader. In Europe, the market is projected to experience growing demand for prismatic and cylindrical cells, but pouch cells will remain prevalent.

And each form factor is projected to have roughly even share by the end of the decade due to the cost of form factor decisions on battery assembly investments. Finally, in China, prismatic form factors will remain dominant as local manufacturers seem to have an advantage over major Korean battery manufacturers who focus on power cells. Overall, prismatic and post designs will continue to represent a significant share of the market with over 70% of the global volume. Providing a significant opportunity for our EV thermal barrier business. Moving over to Slide 9. We’ll now take a closer look at our EV battery chemistry outlook. Cell chemistry dictates how easily a cell will enter thermal runaway and how much heat it will produce. Thermal propagation runaways prevalent within all cell chemistries, but has the highest probability of occurrence with nickel-based chemistries, which account for 70% — over 70% of global volume and thus have a higher pyrotinCPV.

OEMs choose a particular chemistry depending on the vehicles energy requirements, cost targets and their procurement strategies. In North America, LFP chemistries will see significant growth in entry-level vehicles due to their cost advantages and as OEMs seek to diversify on chemistry. In Europe, base level vehicles are expected to shift from low medium nickel chemistries to LFP as well. In China, there is a strong LFP market due to local production, but the country is expected to shift more nickel-rich as vehicle range will be increased and as foreign OEMs enter that market. Globally, each cell chemistry will see a roughly even share of demand as OEMs optimize for different metrics based on vehicle design and class. Semi-solid state batteries are not projected to gain meaningful share in this decade, and it’s hard to find experts who see solid state coming out of the research phase within the next 10 years.

After speaking with several industry experts and customers, we validated the feedback that our sales team is seeing every day of pirating playing a critical role in meeting the requirements of OEMs to mitigate or stop thermal runaway in propagation across all the currently available chemistries. Turning over to Slide 10. EV Chemistry and Form Factor forecasts are relatively reliable due to the significant development time lines and costs associated with making changes regarding battery packs. OEMs have been investing directly in both pack assembly and cell manufacturing capabilities for the past five years, significantly ramping up these investments over the last two years. These OEMs have incurred a large fixed cost base and are now focused on delivering volumes to meet their profitability goals and recoup these investments.

Large changes such as new cell manufacturing plants can take three to four years with cost in the billions of dollars. We saw this with the newly announced GM and Samsung Plant, which will not be completed until 2026 and comes at an initial cost of $3 billion. It is important to note that once completed, this plant would only represent 20% of GM’s overall battery production capacity. At Aspen, we are heavily engaged throughout every stage of the battery pack R&D process with every major OEM. This line of sight gives us confidence in our ability to sustain strong growth throughout the decade and get the sign into specific applications of the vehicle nameplate platform or battery platform level. Now I’ll turn over to Slide 11. Over the past three years, as EV volumes have increased and more automakers started offering EVs, the risks of thermal runaway and propagation have become more apparent and prevalent.

The cost of not managing the inherent issues of how unstable a battery can be are significant to an OEM that does not offer a comprehensive solution to thermal runaway and propagation. We’ve all read in the news of plants that have been shut down for weeks, the car carrier ship that Conor fired due to an EV battery going into thermal runaway or the damaged infrastructure costing OEMs billions of dollars and reputational damage that is hard to recover from. Over the past year, in particular, we’ve seen more OEMs starting to take a proactive approach to addressing thermal runaway by staffing teams to address not just the potential financial loss and reputational risk, but also because legislation is in the process of making this a requirement over the next few years.

On Slide 12, we provided an overview of the regulatory landscape regarding thermal runaway and thermal propagation, government agencies around the world continue to become increasingly aware of the dangerous of thermal runaway and propagation, driving meaningful regulation initiatives. All major markets have participated in the enactment of the United Nations global transportation requirement, which requires a 5-minute delay before a danger to the passenger compartment for hazards such as those caused by thermal runaway. China remains one of the most advanced environments with a 2021 thermal propagation test mandate requiring flame transfer delay of 5 minutes after a warning. Europe and the U.S. have followed the lead of the United Nations by participating in the UN GTR Phase I enactment.

This is likely only the beginning of regulatory mandates regarding thermal propagation and runway. The UN GTR will continue to be a key driver of further regulation as Phase 2 of the GTR requirements continue to evolve and will likely be released over the next few years. In addition, both Europe and the U.S. are looking into developing further standards. Increasing customer awareness of these safety issues will focus the lens on regulators, especially as EV penetration increases and thermal propagation and runaway events and videos continue making the headlines. In the long term, the possibility of regulations aimed at completely eliminating runaway or propagation may be explored. While many EV battery system components such as battery management systems can help deliver trigger warnings, there has not been an effective active management solution to date.

The only current solution to truly mitigate the danger is a passive cell-to-cell thermal barrier. We believe that PyroThin is a solution that allows OEMs to not only provide a 5-minute delay, but that can play a key part in stopping thermal propagation altogether, turning what is currently a potentially catastrophic event into a serviceable one at a portion of the cost. Moving over to Slide 13. Thanks to the increased focus from OEMs are addressing thermal runaway and our team’s progress in working with them. 2023 will be an important year for us as we develop our commercial pipeline. We are expecting decisions from various OEMs on programs totaling over $3 billion of lifetime revenue. Our pipeline includes PyroThin quotes across a variety of cell form factors and chemistries.

As Don outlined in his remarks, our new commercial truck award demonstrates the strong demand for cell-to-cell barriers such as PyroThin for large electric commercial vehicles. In this case, this is an award for cell-to-cell barriers for a pack with prismatic cells. While we are still unable to disclose the identity of the German OEM from which we obtained an LOI in Q4 of 2022. We’re continuing to work with this OEM group to document this initial business award as part of a broader set of strategic discussions to expand within their product range. With that, I’m happy to hand the call back to Don.

Donald Young: Thank you, Ricardo. We have covered a significant amount of ground today in reviewing Q1 and our strategy. Before we move to Q&A, I’d like to emphasize four points. First, during Q1, we demonstrated continued improvements in operating efficiencies, which resulted in an 11% gross margin, and we believe keeps us on track for longer-term gross margins at or above 35%. We also maintained careful control of OpEx during the quarter. Second, the commercial truck brand within an important German OEM group chose us for a multiyear award to provide to them PyroThin thermal barriers. We believe that we are on the cusp of winning more awards with other EV OEMs and are confident we will complete 2023 with a strong roster of EV customers that have designed PyroThin thermal barriers into their respective battery platforms.

Third, we have decided to right time the final stages of the construction of Plant 2 in Statesboro, Georgia and in the meantime, to largely dedicate our Plant 1 aerogel manufacturing capacity in these providence to PyroThin thermal barriers. At the same time, we have reached a manufacturing agreement with a Chinese aerogel manufacturer to supply product to us for our energy industrial business. With this strategy, we believe that we continue to have our full upside opportunity, but during a potential period of economic uncertainty and while our EV OEMs ramp, we optimize the use of our existing assets to create a cash generating business and to avoid unnecessary dilution. And fourth, in this scenario from our current manufacturing assets and supply arrangements, we could have annual revenue capacity of $500 million to $600 million, gross margins at or above 35% and EBITDA meaningfully positive.

The strategy enables us to reduce OpEx and CapEx to generate positive EBITDA to preserve our existing capital and to serve successfully both our EV and energy industrial businesses. Alexis, let’s turn to Q&A. Thank you.

Q&A Session

Operator: Absolutely. We will now begin the question-and-answer session. [Operator Instructions] The first question comes from the line of Eric Stine with Craig Hallum. You may proceed.

Operator: Thank you for your question. The next question comes from the line of Alex Potter with Piper Sandler. You may proceed.

Operator: Thank you for your question. The next question comes from the line of Colin Rusch with Oppenheimer. You may proceed.

Operator: Thank you for your question. The next question comes from the line of Jeff Osborne with TD Cowen. You may proceed.

Operator: Thank you for your question. The next question comes from the line of George Gianarikas with Canaccord Genuity. You may proceed.

Operator: Thank you for your question. The next question comes from the line of Chris Souther with B. Riley. You may proceed.

Operator: Thank you for your question. There are currently no further questions in queue. So I’ll now pass the line back to the management team for any additional or closing remarks.

Donald Young: Thank you, Alexis. We appreciate your interest in Aspen Aerogels, and we look forward to reporting to you our second quarter 2023 results in July. Be well. Have a good day. Thanks very much.

Operator: That concludes the conference call. Thank you for your participation. You may now disconnect your lines.